% MOOSE
% "The user element for dislocated ferroelectrics is developed ... in ... MOOSE"
@Article{XZhou_2022,
  author  = {Xiandong Zhou and Zhen Liu and Bai-Xiang Xu},
  title   = {{Influence of dislocations on domain walls in perovskite ferroelectrics: Phase-field simulation and driving force calculation}},
  journal = {International Journal of Solids and Structures},
  month   = mar,
  year    = 2022,
  volume  = 238,
  pages   = {111391 (15 pages)},
  note    = {\url{https://doi.org/10.1016/j.ijsolstr.2021.111391}}
}

% FEMuS/libMesh
% Manservisi_2024 states this article uses FEMuS.
% FEMuS incorporates various libMesh source files
% by copy/pasting them directly into its codebase.
% This journal does not seem to provide DOI links
% https://www.global-sci.org/intro/article_detail/ijnam/20485.html
@Article{Chierici_2022,
  author  = {Andrea Chierici and Valentina Giovacchini and Sandro Manservisi},
  title   = {Analysis and numerical results for boundary optimal control problems applied to turbulent buoyant flows},
  journal = {International Journal of Numerical Analysis and Modeling},
  month   = apr,
  year    = 2022,
  volume  = 19,
  number  = {2--3},
  pages   = {347--368},
  note    = {\url{https://tinyurl.com/y4runsuz}}
}

% IBAMR/libMesh
% "An open-source computational fluid dynamics code, IBAMR ... was used to implement the immersed boundary method for my study."
@Article{Aghav_2022,
  author  = {Hrithik Aghav},
  title   = {Effects of stroke deviation on the aerodynamics of the smallest flying insects},
  journal = {Journal of Engineering Mathematics},
  month   = oct,
  year    = 2022,
  volume  = 137,
  pages   = {4 (xx pages)},
  note    = {\url{https://doi.org/10.1007/s10665-022-10242-7}}
}

% MOOSE/BISON
% "The simulations presented in this work were performed using the BISON analysis tool..."
@Article{Schappel_2022b,
  author  = {Daniel Schappel and Kurt A. Terrani},
  title   = {{Stress profile in coating layers of TRISO fuel particles in contact with one another}},
  journal = {Nuclear Science and Engineering},
  month   = aug,
  year    = 2022,
  volume  = 196,
  number  = 11,
  pages   = {1349--1360},
  note    = {\url{https://doi.org/10.1080/00295639.2022.2090214}, Tech. Report: \url{https://www.osti.gov/biblio/1883832}}
}

% MOOSE
% "The above variational equations have been implemented using the phasefield and tensor mechanics modules of ... (MOOSE) ..."
@Article{Ip_2022,
  author  = {Sabrina C. Y. Ip and Ronaldo I. Borja},
  title   = {A phase-field approach for compaction band formation due to grain crushing},
  journal = {International Journal for Numerical and Analytical Methods in Geomechanics},
  month   = nov,
  year    = 2022,
  volume  = 46,
  number  = 16,
  pages   = {2965--2987},
  note    = {\url{https://doi.org/10.1002/nag.3436}}
}

% MOOSE
% "The computational algorithm outlined above is implemented in ... MOOSE..."
@Article{Starkey_2022b,
  author  = {Kyle Starkey and Anter El-Azab},
  title   = {{Total Lagrange implementation of a finite-deformation continuum dislocation dynamics model of mesoscale plasticity}},
  journal = {International Journal of Plasticity},
  month   = aug,
  year    = 2022,
  volume  = 155,
  pages   = {103332 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijplas.2022.103332}}
}

% MOOSE/phase_field
% This is a review article, but Fig. 1 includes simulation results from the MOOSE phase_field module.
@Article{JStewart_2022,
  author  = {James A. Stewart},
  title   = {Recent progress on the mesoscale modeling of architected thin-films via phase-field formulations of physical vapor deposition},
  journal = {Computational Materials Science},
  month   = aug,
  year    = 2022,
  volume  = 211,
  pages   = {111503 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2022.111503}}
}

% MOOSE
% "Four open-source software modules were used to build the model... MOOSE... was used to model the heat conduction equation..."
@Article{Greenquist_2022,
  author  = {Ian Greenquist},
  title   = {{UO$_2$-liquid metal suspension fuel concept for enhanced passive safety of LWRs: A heat pipe case study}},
  journal = {Nuclear Engineering and Design},
  month   = nov,
  year    = 2022,
  volume  = 398,
  pages   = {111972 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2022.111972}}
}

% MOOSE
% "The numerical model used in the present work has three components... All three are implemented using ... MOOSE"
@Article{Rezwan_2022,
  author  = {Aashique A. Rezwan and Daniel Schwen and Yongfeng Zhang},
  title   = {{Effect of concurrent grain growth on radiation-induced segregation in nanocrystalline Fe-Cr-Ni alloys}},
  journal = {Journal of Nuclear Materials},
  month   = may,
  year    = 2022,
  volume  = 563,
  pages   = {153614 (16 pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153614}}
}

% MOOSE
% "Our phase-field model is implemented using ... MOOSE"
% The conference was apparently in 2022, but the Proceedings are apparently coming out in 2023.
% https://www.nuce.psu.edu/Motta/Publications/189_Simon_STP_2023.pdf
% https://www.astm.org/stp164520220069.html
@InProceedings{Simon_2022c,
  author    = {Pierre-Cl{\'{e}}ment A. Simon and Long-Qing Chen and Mark R. Daymond and Arthur T. Motta and Michael R. Tonks},
  title     = {{Mechanisms of mesoscale hydride morphology and reorientation in a polycrystal investigated using phase-field modeling}},
  booktitle = {{Proceedings of the 20th International Symposium on Zirconium in the Nuclear Industry}},
  address   = {Ontario, Canada},
  pages     = {807--830},
  month     = jun # {~20--23,},
  year      = 2022,
  note      = {\url{https://doi.org/10.1520/STP164520220069}}
}

% MOOSE/EEL
@TechReport{THu_2022,
  author      = {Tianchen Hu and Mark C. Messner and Pallab Barai and Bipul Barua},
  title       = {{EEL: A MOOSE-based application for 3D electro-chemo-thermo-mechanical modeling of solid-state batteries}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = sep,
  year        = 2022,
  number      = {ANL-22/67},
  note        = {\url{https://doi.org/10.2172/1891097}}
}

% MOOSE/stochastic_tools
@TechReport{Prince_2022b,
  author      = {Zachary M. Prince and Colin Brennan and Mehmet Turkmen and Paolo Balestra and Gerhard Strydom},
  title       = {{Reduced order models generation for HTGRs pebble shuffling procedure optimization studies}},
  institution = {Idaho National Laboratory},
  day         = 1,
  month       = sep,
  year        = 2022,
  number      = {INL/RPT-22-68865},
  note        = {\url{https://www.osti.gov/biblio/1901800}}
}

% MOOSE
% "This work details the development of a novel subchannel code within the MOOSE computational framework."
% Link was not working when I tried to access it, so not sure about month.
% https://oaktrust.library.tamu.edu/handle/1969.1/197801
% https://oaktrust.library.tamu.edu/bitstream/handle/1969.1/197801/KYRIAKOPOULOS-DISSERTATION-2022.pdf
@phdthesis{Kyriakopoulos_thesis,
  author = {V. Kyriakopoulos},
  school = {Texas A\&M University},
  title  = {{Development of a transient single-phase subchannel code \& integration within the Multi-Purpose, Multi-Physics MOOSE computational framework}},
  note   = {\url{https://tinyurl.com/zz8ht9v3}},
  month  = aug,
  year   = 2022
}

% MOOSE/Griffin
@TechReport{Prince_2022,
  author      = {Zachary M. Prince and Yaqi Wang and Joshua Thomas Hanophy and Vincent M. Labour{\'{e}} and Shikhar Kumar and Yeon Sang Jung and Changho Lee},
  title       = {{Improvements to the Griffin transport solvers}},
  institution = {Idaho National Laboratory},
  day         = 1,
  month       = sep,
  year        = 2022,
  number      = {INL/RPT-22-69391},
  note        = {\url{https://www.osti.gov/biblio/1901806}}
}

% MOOSE/Griffin
% https://www.osti.gov/biblio/1891623
@TechReport{Stauff_2022c,
  author      = {N. Stauff and M. Atz and A. Abdelhameed and K. Kiesling and S. Kumar and Y. Jung and P. Shriwise},
  title       = {{Status of the NEAMS and ARC fast reactor tools integration to the NEAMS Workbench}},
  institution = {Argonne National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2022,
  number      = {ANL/NEAMS-20/2},
  note        = {\url{https://doi.org/10.2172/1891623}}
}

% MOOSE phase_field/Pronghorn/Griffin
% https://www.osti.gov/biblio/1962308
@TechReport{Shahbazi_2022b,
  author      = {Shayan Shahbazi and Mauricio E. Tano and Samuel Walker and Michael R. Tonks and Jun Fang},
  title       = {{Survey of relevant data from the MSRP to guide development of MSR chemistry modeling benchmarks}},
  institution = {Argonne National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2022,
  number      = {ANL/NSE-22/89},
  note        = {\url{https://doi.org/10.2172/1962308}}
}

% MOOSE/Griffin
@TechReport{Walker_2022,
  author      = {Samuel Austin Walker and Abdalla Abou Jaoude and Olin W. Calvin and Mauricio Eduardo {Tano Retamales}},
  title       = {{Implementation of isotopic removal capability in Griffin for multi-region MSR depletion analysis}},
  institution = {Idaho National Laboratory},
  day         = 17,
  month       = nov,
  year        = 2022,
  number      = {INL/CON-22-67793},
  note        = {\url{https://www.osti.gov/biblio/1987468}}
}

% MOOSE
% "A sensitivity study of the fuel and moderator temperatures for various core regions was performed with the MOOSE stochastic tools"
@TechReport{Ortensi_2022,
  author      = {Javier Ortensi and Paolo Balestra},
  title       = {{Initial study on cross section generation requirements for a PBR equilibrium core}},
  institution = {Idaho National Laboratory},
  day         = 20,
  month       = may,
  year        = 2022,
  number      = {INL/EXT-21-64242},
  note        = {\url{https://www.osti.gov/biblio/1826592}, from the 2022 International Conference on Physics of Reactors (PHYSOR 2022)}
}

% MOOSE
% "The formulated reactive-chemo-mechanical framework is implemented and numerical investigations are conducted in ... (MOOSE)"
@InProceedings{XTang_2022,
  author    = {X. J. Tang and M. M. Hu},
  title     = {A coupled reactive-chemo-mechanical model for acidizing assisted hydraulic fracturing in carbonates},
  booktitle = {{Proceedings of the 56th U.S. Rock Mechanics/Geomechanics Symposium}},
  address   = {Santa Fe, New Mexico},
  pages     = {ARMA-2022-0361 (xx pages)},
  month     = jun # {~26--29,},
  year      = 2022,
  note      = {\url{https://doi.org/10.56952/ARMA-2022-0361}}
}

% MOOSE
% The MMR core temperature profiles at steady-state and a transient scenario were simulated based on a MOOSE-SAM model..."
@Article{Fei_2022,
  author  = {T. Fei and K. Mo and Y. Miao and C. Forsyth and R. Hu and S. Bhattacharya and T. Kim},
  title   = {Conceptual core design of the molten metal fueled microreactor with self-regulating capability},
  journal = {Annals of Nuclear Energy},
  month   = aug,
  year    = 2022,
  volume  = 173,
  pages   = {109112 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2022.109112}}
}

% MOOSE
% "... the continuous Galerkin method is invoked via the phase-field module available in the simulation package MOOSE framework"
% https://par.nsf.gov/servlets/purl/10358796
@Article{Hamed_2022,
  author  = {Ahmed Hamed and Rayaprolu Goutham Sreekar Annadanam and Grethe Winther and Anter El-Azab},
  title   = {{Impact of the plastic deformation microstructure in metals on the kinetics of recrystallization: A phase-field study}},
  journal = {Acta Materialia},
  month   = nov,
  year    = 2022,
  volume  = 240,
  pages   = {118332 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.actamat.2022.118332}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.4160550}}
}

% MOOSE/phase_field
% "..., a mesoscale modeling technique in the MOOSE ... framework [31] is used"
% https://www.sciencedirect.com/science/article/am/pii/S0022311522000897
@Article{Chen_2022,
  author  = {Weiming Chen and Xian-Ming Bai},
  title   = {{Mesoscale modeling of microstructure-dependent thermal conductivity in U-Zr fuels}},
  journal = {Journal of Nuclear Materials},
  month   = apr,
  year    = 2022,
  volume  = 562,
  pages   = {153593 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153593}}
}

% MOOSE
% "The transient model described in equations 13 and 14 was developed as an application built on ... (MOOSE)"
% https://www.sciencedirect.com/science/article/am/pii/S0926337321010237
@Article{Ladshaw_2022,
  author  = {Austin Ladshaw and Josh Pihl},
  title   = {{Measurement and modeling of the effects of exhaust composition and hydrothermal aging on the ammonia storage capacity of a commercial Cu-SSZ-13 catalyst}},
  journal = {Applied Catalysis B: Environmental},
  month   = apr,
  year    = 2022,
  volume  = 303,
  pages   = {120898 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.apcatb.2021.120898}}
}

% MOOSE
% Confirmed that MOOSE was used the by contacting the author directly.
@Article{Bhuiyan_2022,
  author  = {M. Nabil Bhuiyan and Najwa Jabir and Yiliang Liao and Leslie T. Mushongera},
  title   = {Interaction of grain boundaries and particles in uncooperative migration},
  journal = {Advanced Engineering Materials},
  month   = mar,
  year    = 2022,
  volume  = 24,
  number  = 3,
  pages   = {2100881 (xx pages)},
  note    = {\url{https://doi.org/10.1002/adem.202100881}}
}

% Maybe MOOSE
% I don't have access to this dissertation, but this person has previously done a number of publications using MOOSE.
% https://www.proquest.com/openview/198c296e0baeafcba0cc81e66251b3f5/1
@phdthesis{Farizhandi_thesis,
  author = {Amir {Abbas Kazemzadeh Farizhandi}},
  school = {Boise State University},
  title  = {Deep learning of microstructures},
  note   = {\url{https://www.proquest.com/openview/198c296e0baeafcba0cc81e66251b3f5/1}},
  month  = dec,
  year   = 2022
}

% MOOSE
% "Initial progress into the development of a finite-element liquid-metal MHD solver built using the MOOSE framework ... is presented"
% https://hpcfusion.bsc.es/wordpress/wp-content/uploads/2022/11/FusionHPC_Abstract_LM-MHD-Solvers-Rupert-Eardley.pdf
@InProceedings{Eardley_2022,
  author    = {R. W. Eardley and A. J. Dubas and A. Davis},
  title     = {{Progress towards scalable liquid-metal MHD solvers for fusion breeder blanket multiphysics applications}},
  booktitle = {{Proceedings of the 3rd Fusion HPC Workshop}},
  address   = {Virtual, Online},
  month     = dec # {~15--16,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/5xnaes6u}}
}

% MOOSE
@Article{Kyriakopoulos_2022,
  author  = {Vasileios Kyriakopoulos and Mauricio E. Tano and Jean C. Ragusa},
  title   = {{Development of a single-phase, transient, subchannel code, within the MOOSE multi-physics computational framework}},
  journal = {Energies},
  month   = may,
  year    = 2022,
  volume  = 15,
  number  = 11,
  pages   = {3948 (27 pages)},
  note    = {\url{https://doi.org/10.3390/en15113948}}
}

% libMesh
% Akselos RB-FEA uses libMesh
@InProceedings{Knezevic_2022,
  author    = {David Knezevic and Romain Pinguet and Bruce Martin and John Peterson and Mat Podskarbi and Seth Price and Sylvain Vallaghe},
  title     = {{Validation of a fully integrated numerical simulation method to assess structural integrity on a flexible model of FOWT using RB-FEA}},
  booktitle = {Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering},
  address   = {Boston, Massachusetts},
  month     = dec # {~7--8},
  year      = 2022,
  pages     = {IOWTC2022-94295 (9 pages)},
  note      = {\url{https://doi.org/10.1115/IOWTC2022-94295}}
}

% MOOSE
% "The study will use publicly available multiphysics frameworks DuMux and Moose to evaluate the displacement process of brine by CO2 at the near injection region"
% https://pure.unileoben.ac.at/portal/files/11212272/AC16729303.pdf
% https://pure.unileoben.ac.at/portal/en/publications/numerical-study-of-formation-dryout-and-salt-precipitation-due-to-supercritical-co2-injection(0ecadfe3-0949-4f1d-9d16-7e2d26460c1a).html
@mastersthesis{Martynov_thesis,
  author = {Denis Martynov},
  school = {Montan Universit{\"{a}}t Leoben},
  title  = {{Numerical study of formation dryout and salt precipitation due to supercritical CO$_2$ injection}},
  note   = {\url{https://tinyurl.com/4whzs888}},
  month  = nov,
  year   = 2022
}

% MOOSE
% "Thank You" slide states that simulations are performed in MOOSE
% https://www.researchgate.net/publication/366929179_Comparing_flow_networks_and_numerical_simulations_-_advantages_and_limitations
@InProceedings{Kelka_2022,
  author    = {Ulrich Kelka and Thomas Poulet and Dirk Mallants},
  title     = {Comparing flow networks and numerical simulations -- advantages and limitations},
  booktitle = {{Australasian Groundwater Conference (AGC22)}},
  address   = {Perth, Western Australia},
  pages     = {193 (18 pages)},
  month     = nov # {~21--23,},
  year      = 2022,
  note      = {\url{https://doi.org/10.13140/RG.2.2.25583.92327}}
}

% MOOSE
% This report discusses the Virtual Test Bed, which contains a number of MOOSE-related tools.
% https://www.osti.gov/biblio/1902893
@TechReport{Shemon_2022b,
  author      = {Emily Shemon and Guillaume Giudicelli and A. Abou-Jaoude},
  title       = {{NEAMS Advanced Reactor Model Contributions to the NRIC Virtual Test Bed}},
  institution = {Argonne National Laboratory},
  day         = 16,
  month       = dec,
  year        = 2022,
  number      = {ANL/NEAMS-22/2},
  note        = {\url{https://doi.org/10.2172/1902893}}
}

% MOOSE/Griffin
% "A combination of NEAMS tools ... was used to perform simulations ... This includes Griffin ..., BISON ..., Sockeye ..., and SAM ..."
% doi.org/10.13182/T127-39750 (DOI was not working when I tried it)
% https://www.researchgate.net/publication/382024050_Applications_of_NEAMS_Codes_for_Multiphysics_Modeling_of_Several_Microreactors_Problems
@InProceedings{Stauff_2022d,
  author    = {Nicolas E. Stauff and Ahmed Abdelhameed and Yan Cao and Daniel Nunez and Yinbin Miao and Kun Mo and Changho Lee and Christopher Matthews and Emily Shemon and Justin Thomas},
  title     = {{Applications of NEAMS codes for multiphysics modeling of several microreactors problems}},
  booktitle = {{ANS Winter Meeting}},
  address   = {Phoenix, Arizona},
  pages     = {998--1001},
  month     = nov # {~13--17,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/3nh3b73y}}
}

% MOOSE/Griffin
% "Steady state multiphysics simulations using Griffin, BISON, and SAM was [sic] performed..."
% https://www.researchgate.net/publication/366311924_High-fidelity_multiphysics_modeling_of_load_following_for_3-d_gas-cooled_microreactor_assembly_using_NEAMS_codes
@InProceedings{Abdelhameed_2022,
  author    = {Ahmed Abdelhameed and Yan Cao and Daniel Nunez and Yinbin Miao and Kun Mo and Changho Lee and Emily Shemon and Nicolas E. Stauff},
  title     = {{High-fidelity multiphysics modeling of load following for 3-D gas-cooled microreactor assembly using NEAMS codes}},
  booktitle = {{ANS Winter Meeting}},
  address   = {Phoenix, Arizona},
  pages     = {xx (4 pages)},
  month     = nov # {~13--17,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/d2mhatdy}}
}

% BISON
% "For the fuel performance, the HiFi model ... is the BISON finite element code"
% https://www.researchgate.net/profile/Kan-Ni/publication/366820942_High-to-Low_Multi-Physics_Modeling_and_Uncertainty_Propagation_Using_NEAMS_Tools/links/63b389fea03100368a4b3416/High-to-Low-Multi-Physics-Modeling-and-Uncertainty-Propagation-Using-NEAMS-Tools.pdf
@InProceedings{Fustero_2022,
  author    = {Joseph Fustero and Walker Powell and Kan Ni and Nilay Atul Kulkarni and Gregory K. Delipei and David Holler and Jason Hou and Marco Delchini and Ralph Smith and Maria Avramova},
  title     = {{High-to-low multi-physics modeling and uncertainty propagation using NEAMS tools}},
  booktitle = {{ANS Winter Meeting}},
  address   = {Phoenix, Arizona},
  pages     = {438--441},
  month     = nov # {~13--17,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/hyr2nv7a}}
}

% MOOSE
% "Bison and Griffin ... were used to obtain the numerical results in this paper"
% https://www.researchgate.net/publication/366517350_Selected_results_from_full-core_hydrogen_redistribution_asymptotic_analysis_in_YH-moderated_heat-pipe_cooled_microreactor
@InProceedings{Terlizzi_2022b,
  author    = {Stefano Terlizzi and Vincent M. Labour{\'{e}} and Mark D. DeHart},
  title     = {{Selected results from full-core hydrogen redistribution asymptotic analysis in YH-moderated heat-pipe cooled microreactor}},
  booktitle = {{ANS Winter Meeting}},
  address   = {Phoenix, Arizona},
  pages     = {xx (4 pages)},
  month     = nov # {~13--17,},
  year      = 2022,
  note      = {INL/CON-22-67955, \url{https://www.osti.gov/biblio/1906441}}
}

% MOOSE
% "... finite element method predictions using MOOSE framework ... are used as reference solutions"
@phdthesis{Chan_thesis,
  author = {WaiLam Chan},
  school = {University of Kentucky},
  title  = {{Peridynamic material correspondence models: Bond-associated and higher-order formulations}},
  note   = {\url{https://doi.org/10.13023/etd.2022.416}},
  month  = dec,
  year   = 2022
}

% MOOSE
% "The code is based on the parallel, finite-element (FE) MOOSE ... framework"
@InProceedings{Egert_2022,
  author    = {Robert Egert and Emmanuel Gaucher and Alexandros Savvatis and Peter Goblirsch and Thomas Kohl},
  title     = {{Numerical determination of long-term alterations of THM characteristics of a Malm geothermal reservoir during continuous exploitation}},
  booktitle = {{Proceedings of the European Geothermal Congress}},
  address   = {Berlin, Germany},
  month     = oct # {~17--21,},
  year      = 2022,
  note      = {\url{https://doi.org/10.5445/IR/1000152037/pub}}
}

% MOOSE
% "A finite element code, called MOSKITO ... has been developed using MOOSE framework"
% https://www.researchgate.net/publication/370155777_Increasing_the_contribution_of_closed_geothermal_systems_to_green_energy_generation_through_designing_a_novel_deep_multilateral_framework
@InProceedings{Esmaeilpour_2022c,
  author    = {Morteza Esmaeilpour and Maziar Gholami Korzani and Thomas Kohl},
  title     = {{Increasing the contribution of closed geothermal systems to green energy generation through designing a novel deep multilateral framework}},
  booktitle = {{Proceedings of the European Geothermal Congress}},
  address   = {Berlin, Germany},
  month     = oct # {~17--21,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/4mjzvnzn}}
}

% MOOSE/BISON
% "The discrete power profile map is generated by using a square mesh tally in Serpent and is then fed into BISON using a multilinear interpolation function."
@Article{Ade_2022,
  author  = {Brian J. Ade and Daniel P. Schappel and Benjamin R. Betzler and Grant W. Helmreich and Alberto Talamo and Dylan D. Richardson and Michael P. Trammel and Brian P. Jolly and Austin T. Schumacher and Kurt A. Terrani},
  title   = {{Ordered particle packing in dense TRISO/SiC fuel elements and preliminary assessment of neutronic and thermomechanical characteristics}},
  journal = {Nuclear Science and Engineering},
  month   = dec,
  year    = 2022,
  volume  = 196,
  number  = 12,
  pages   = {1517--1538},
  note    = {\url{https://doi.org/10.1080/00295639.2022.2049995}}
}

% MOOSE
% The model is part of the development of ... (TMAP8) ... which is itself built on top of ... (MOOSE)."
@Article{Simon_2022b,
  author  = {Pierre-Cl{\'{e}}ment A. Simon and Paul W. Humrickhouse and Alexander D. Lindsay},
  title   = {{Tritium transport modeling at the pore scale in ceramic breeder materials using TMAP8}},
  journal = {IEEE Transactions on Plasma Science},
  month   = nov,
  year    = 2022,
  volume  = 50,
  number  = 11,
  pages   = {4465--4471},
  note    = {\url{https://doi.org/10.1109/TPS.2022.3183525}}
}

% MOOSE
% "This work focuses on developing a fully integrated multiphysics simulation framework based on ... (MOOSE)"
@Article{Kong_2022,
  author  = {Fande Kong and Paul W. Humrickhouse},
  title   = {Toward a fully integrated multiphysics simulation framework for fusion blanket design},
  journal = {IEEE Transactions on Plasma Science},
  month   = nov,
  year    = 2022,
  volume  = 50,
  number  = 11,
  pages   = {4446--4452},
  note    = {\url{https://doi.org/10.1109/TPS.2022.3173158}}
}

% MOOSE
@TechReport{McLing_2022,
  author      = {Travis L. McLing and Wencheng Jin and Ghanashyam Hari Neupane and Trevor A. Atkinson and Patrick Dobson and Christine Doughty and Nic Spycher and Robert W. Smith},
  title       = {{Dynamic earth energy storage: Terawatt-year, grid-scale energy storage using planet earth as a thermal battery (GeoTES): Phase I project final report}},
  institution = {Idaho National Laboratory},
  day         = 2,
  month       = sep,
  year        = 2022,
  number      = {INL/RPT-22-66762},
  note        = {\url{https://doi.org/10.2172/1885826}}
}

% MOOSE/SAM
@Article{YLiu_2022c,
  author  = {Yang Liu and Rui Hu and Ling Zou and Daniel Nunez},
  title   = {{SAM-ML: Integrating data-driven closure with nuclear system code SAM for improved modeling capability}},
  journal = {Nuclear Engineering and Design},
  month   = dec,
  year    = 2022,
  volume  = 400,
  pages   = {112059 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2022.112059}}
}

% BISON
% The power pulses are imposed as boundary conditions in BISON for various fuel states ..."
% https://repository.lib.ncsu.edu/bitstream/handle/1840.20/40172/etd.pdf?sequence=1
@phdthesis{Fustero_thesis,
  author = {Joseph Gerard Fustero},
  school = {North Carolina State University},
  title  = {{Multifidelity methodologies for nuclear fuel thermal feedback}},
  note   = {\url{https://repository.lib.ncsu.edu/handle/1840.20/40172}},
  month  = oct,
  year   = 2022
}

% BISON
% This has a very similar title to Kobayashi_2022 which came out around the same time, but the author list is different.
% author:kobayashi author:naskar BISON digital twin
@Misc{Kobayashi_2022b,
  author       = {Kazuma Kobayashi and Dinesh Kumar and Susmita Naskar and Souvik Chakraborty and Kyle Paaren and Joseph Graham and Syed Alam},
  title        = {{Non-intrusive uncertainty quantification for U$_3$Si$_2$ and UO$_2$ Fuels with SiC/SiC cladding using BISON for digital twin-enabling technology}},
  month        = nov,
  year         = 2022,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2211.13687}}
}

% MOOSE/SAM
% https://publications.anl.gov/anlpubs/2022/11/179789.pdf
@TechReport{LZou_2022b,
  author      = {Ling Zou and Dan O'Grady and Rui Hu},
  title       = {{Enabling parallel execution of system-level simulations in SAM}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = nov,
  year        = 2022,
  number      = {ANL/NSE-22/97},
  note        = {\url{https://doi.org/10.2172/1898043}}
}

% MOOSE
% "We use a[n] ... application within the MOOSE framework for our simulations on Co-based superalloys."
@Article{Wu_2022,
  author  = {Wenkun Wu and Ursala R. Kattner and Carelyn E. Campbell and Jonathan E. Guyer and Peter W. Voorhees and James A. Warren and Olle G. Heinonen},
  title   = {{Co-based superalloy morphology evolution: A phase field study based on experimental thermodynamic and kinetic data}},
  journal = {Acta Materialia},
  month   = jul,
  year    = 2022,
  volume  = 233,
  pages   = {117978 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.actamat.2022.117978}}
}

% MOOSE
% https://www.researchgate.net/publication/365443350_Validation_of_NekRS-MOOSE_Conjugate_Heat_Transfer_Coupling_for_a_7-Pin_Bare_Bundle
@InProceedings{Novak_2022d,
  author    = {A. J. Novak and A. Chaube and D. Shaver and C. Brooks},
  title     = {{Validation of NekRS-MOOSE conjugate heat transfer coupling for a 7-pin bare bundle}},
  booktitle = {{Proceedings of the 2022 American Nuclear Society Winter Meeting and Technology Expo}},
  address   = {Phoenix, Arizona},
  month     = nov # {~13--17,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/4ac9s7dm}}
}

% MOOSE
% "... the 3D microstructures obtained from FIB tomography were reconstructed using the MOOSE framework..."
@Article{McKinney_2022,
  author  = {Casey McKinney and Floyd Hilty and Daniel Murray and Narayan Poudel and Fabiola Cappia and Tsvetoslav Pavlov and Assel Aitkaliyeva},
  title   = {{Three-dimensional microstructural characterization of FBR MOX fuel and the contribution of microstructural features to the thermal conductivity of the fuel}},
  journal = {Journal of Nuclear Materials},
  month   = dec,
  year    = 2022,
  volume  = 572,
  pages   = {154073 (10 pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.154073}}
}

% MOOSE/Pronghorn
@Article{JLee_2022b,
  author  = {Jieun Lee and Paolo Balestra and Yassin A. Hassan and Robert Muyshondt and Duy Thien Nguyen and Richard Skifton},
  title   = {{Validation of Pronghorn pressure drop correlations against pebble bed experiments}},
  journal = {Nuclear Technology},
  month   = dec,
  year    = 2022,
  volume  = 208,
  number  = 12,
  pages   = {1769--1805},
  note    = {\url{https://doi.org/10.1080/00295450.2022.2081482}}
}

% libmesh
% "The equations are considered using a Galerkin finite element discretization and are solved using libMesh..."
% ResearchGate Preprint: https://www.researchgate.net/publication/351222079_Dynamic_Mode_Decomposition_in_Adaptive_Mesh_Refinement_and_Coarsening_Simulations
@Article{Barros_2022b,
  author  = {Gabriel F. Barros and Mal{\'{u}} Grave and Alex Viguerie and Alessandro Reali and Alvaro L. G. A. Coutinho},
  title   = {Dynamic mode decomposition in adaptive mesh refinement and coarsening simulations},
  journal = {Engineering with Computers},
  month   = oct,
  year    = 2022,
  volume  = 38,
  number  = 5,
  pages   = {4241--4268},
  note    = {\url{https://doi.org/10.1007/s00366-021-01485-6}, ArXiv e-print: \url{https://arxiv.org/abs/2104.14034}}
}
% MOOSE
% "The Lagrangian model ... solves the governing equations using the well-tested MOOSE finite element code."
@Article{Sen_2022,
  author  = {Oishik Sen and Camilo A. Duarte and Nirmal Kumar Rai and Marisol Koslowski and H. S. Udaykumar},
  title   = {{An Eulerian crystal plasticity framework for modeling large anisotropic deformations in energetic materials under shocks}},
  journal = {Journal of Applied Physics},
  month   = nov,
  year    = 2022,
  volume  = 132,
  number  = 18,
  pages   = {185902 (27 pages)},
  note    = {\url{https://doi.org/10.1063/5.0091911}}
}

% MOOSE/BISON
% "... this updated model can be used in Bison to model Zircaloy cladding with a zirconium inner liner"
@Article{Passelaigue_2022,
  author  = {Florian Passelaigue and Pierre-Cl{\'{e}}ment A. Simon and Arthur T. Motta},
  title   = {{Predicting the hydride rim by improving the solubility limits in the Hydride Nucleation-Growth-Dissolution (HNGD) model}},
  journal = {Journal of Nuclear Materials},
  month   = jan,
  year    = 2022,
  volume  = 558,
  pages   = {153363 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2021.153363}}
}

% MOOSE
% "The phase-field model was numerically implemented using finite element method in the open-source software ... (MOOSE)"
@Article{FZhou_2022,
  author  = {Fangping Zhuo and Xiandong Zhou and Shuang Gao and Marion H{\"{o}}fling and Felix Dietrich and Pedro B. Groszewicz and Lovro Fulanovi{\'{c}} and Patrick Breckner and Andreas Wohninsland and Bai-Xiang Xu and Hans-Joachim Kleebe and Xiaoli Tan and Jurij Koruza and Dragan Damjanovic and J{\"{u}}rgen R{\"{o}}del},
  title   = {Anisotropic dislocation-domain wall interactions in ferroelectrics},
  journal = {Nature Communications},
  month   = nov,
  year    = 2022,
  volume  = 13,
  pages   = {6676 (11 pages)},
  note    = {\url{https://doi.org/10.1038/s41467-022-34304-7}}
}

% MOOSE
% "The implementation of IGA is ... in-house ... while the FEM code is from ... MOOSE"
@Article{JXu_2022,
  author  = {Jiangping Xu and Tingyu Yan and Yang Li and Zhenyuan Yu and Yun Wang and Yuan Wang},
  title   = {{Isogeometric analysis-based solidification simulation and an improved way to apply supercooling on droplet boundary}},
  journal = {Metals},
  month   = oct,
  year    = 2022,
  volume  = 12,
  number  = 11,
  pages   = {1836 (20 pages)},
  note    = {\url{https://doi.org/10.3390/met12111836}}
}

% MOOSE/FALCON
% In this work, we perform porous flow simulations and develop the parallel subset optimization algorithms using FALCON, a MOOSE ... based application..."
@TechReport{Munday_2022,
  author      = {Lynn Brendon Munday and Som Lakshmi Narasimha Dhulipala and Robert K. Podgorney and Aleta Finnila},
  title       = {{Evaluation and optimization of well completion options for the Utah FORGE site}},
  institution = {Idaho National Laboratory},
  day         = 31,
  month       = aug,
  year        = 2022,
  number      = {INL/CON-22-69697},
  note        = {\url{https://www.osti.gov/biblio/1894593}}
}

% MOOSE
% "Equations (2), (8) and (19) were implemented in ... (MOOSE)"
@Article{Rizza_2022c,
  author  = {Giovanni Rizza and Manuela Galati and Luca Iuliano},
  title   = {{A phase-field study of neck growth in electron beam powder bed fusion (EB-PBF) process of Ti6Al$_4$V powders under different processing conditions}},
  journal = {The International Journal of Advanced Manufacturing Technology},
  month   = oct,
  year    = 2022,
  volume  = 123,
  pages   = {855--873},
  note    = {\url{https://doi.org/10.1007/s00170-022-10204-4}}
}

% libMesh/BeatIt
% "The implementation uses the parallel finite element library libMesh ..."
@Article{Rossi_2022,
  author  = {Simone Rossi and Laryssa Abdala and Andrew Woodward and John P. Vavalle and Craig S. Henriquez and Boyce E. Griffith},
  title   = {Rule-based definition of muscle bundles in patient-specific models of the left atrium},
  journal = {Frontiers in Physiology},
  month   = oct,
  year    = 2022,
  volume  = 13,
  pages   = {912947 (20 pages)},
  note    = {\url{https://doi.org/10.3389/fphys.2022.912947}}
}

% MOOSE
@TechReport{Laboure_2022b,
  author      = {Vincent M. Labour{\'{e}} and Sebastian Schunert and Stefano Terlizzi and Zachary M. Prince and Javier Ortensi and Ching-Sheng Lin and Lise Cecile Madeleine Charlot and Mark D. DeHart},
  title       = {{Automated control for nuclear thermal propulsion start-up using MOOSE based applications}},
  institution = {Idaho National Laboratory},
  day         = 4,
  month       = aug,
  year        = 2022,
  number      = {INL/RPT-22-68551},
  note        = {\url{https://www.osti.gov/biblio/1893100}}
}

% MOOSE/BISON
% "Coupling VERA to BISON will allow for the creation of very accurate BISON simulations..."
% https://www.osti.gov/biblio/1892398
@TechReport{Cornejo_2022,
  author      = {Luke Cornejo and Jake Hirschhorn and Aaron Graham and Ben Collins},
  title       = {{VERAOneWay coupling for transients}},
  institution = {Oak Ridge National Laboratory},
  day         = 18,
  month       = aug,
  year        = 2022,
  number      = {ORNL/TM-2022/2581},
  note        = {\url{https://doi.org/10.2172/1892398}}
}

% MOOSE
% "The effects of the fracture network on the dispersion and mechanical deformation of the coal were simulated in ... (MOOSE)"
@Article{RogerHu_2022,
  author  = {Roger Hu and Stuart D. C. Walsh},
  title   = {The role of heterogeneity on deformation and flow in fractured coal slopes},
  journal = {Minerals},
  month   = oct,
  year    = 2022,
  volume  = 12,
  number  = 10,
  pages   = {1297 (11 pages)},
  note    = {\url{https://doi.org/10.3390/min12101297}}
}

% MOOSE
% "The constitutive model has been implemented as a material model and interfaced with the open-source finite element library, MOOSE"
@Article{Chaudhary_2022,
  author  = {Suketa Chaudhary and P. J. Guruprasad and Anirban Patra},
  title   = {{Crystal plasticity constitutive modeling of tensile, creep and cyclic deformation in single crystal Ni-based superalloys}},
  journal = {Mechanics of Materials},
  month   = nov,
  year    = 2022,
  volume  = 174,
  pages   = {104474 (19 pages)},
  note    = {\url{https://doi.org/10.1016/j.mechmat.2022.104474}}
}

% MOOSE
% "The simulations are performed using ... (MOOSE)"
@Article{Topkaya_2022,
  author  = {Tolga Topkaya and Yuan Gao and Philippe H. Geubelle},
  title   = {Frontal polymerization in short-fiber-reinforced thermoset composites},
  journal = {ACS Applied Polymer Materials},
  month   = oct,
  year    = 2022,
  volume  = 4,
  number  = 10,
  pages   = {6880--6886},
  note    = {\url{https://doi.org/10.1021/acsapm.2c00818}}
}

% MOOSE/BISON
@Article{Kane_2022,
  author  = {K. Kane and S. Bell and B. Garrison and M. Ridley and M. Gussev and K. Linton and N. Capps},
  title   = {{Quantifying deformation during Zry-4 burst testing: A comparison of BISON and a combined in-situ digital image correlation and infrared thermography method}},
  journal = {Journal of Nuclear Materials},
  month   = dec,
  year    = 2022,
  volume  = 572,
  pages   = {154063 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.154063}}
}

% MOOSE/BISON
% https://www.osti.gov/biblio/1891508
@TechReport{Toptan_2022b,
  author      = {Aysenur Toptan and Fernando Angulo Barba and Yifeng Che and Kyle A. Gamble and Gyanender Singh and Conor O. T. Galvin and Michael W. D. Cooper},
  title       = {{BISON capability to account for dopant sensitivity in relevant UO$_2$ material models}},
  institution = {Idaho National Laboratory},
  day         = 31,
  month       = aug,
  year        = 2022,
  number      = {INL/RPT-22-69035},
  note        = {\url{https://doi.org/10.2172/1891508}}
}

% libMesh
% "For the Finite element method (FEM) discretization of Poisson's equation, libmesh library package is used."
% author:bishnoi multi-scale incoherent
@Misc{Bishnoi_2022,
  author       = {Bhupesh Bishnoi},
  title        = {{Multi-scale incoherent electronic transport properties in non-ideal CVD graphene devices}},
  month        = oct,
  year         = 2022,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/2210.05829}}
}

% MOOSE
% "... (MOOSE) ... was employed to solve eqn (1), (3), (4) and (6)."
@Article{Attariani_2022,
  author  = {Hamed Attariani},
  title   = {Latent track formation and recrystallization in swift heavy ion irradiation},
  journal = {Physical Chemistry Chemical Physics},
  month   = oct,
  year    = 2022,
  volume  = 24,
  number  = 39,
  pages   = {24480--24486},
  note    = {\url{https://doi.org/10.1039/D2CP04061A}}
}

% MOOSE/BISON
% "The BISON predictions exhibit trends that are generally consistent with the legacy data."
@Article{Hirschhorn_2022,
  author  = {Jacob A. Hirschhorn and Jeffrey J. Powers and Ian Greenquist and Ryan T. Sweet and Jianwei Hu and Douglas L. Porter and Douglas C. Crawford},
  title   = {{Metallic fuel performance benchmarks for Versatile Test Reactor applications}},
  journal = {Nuclear Science and Engineering},
  month   = sep,
  year    = 2022,
  volume  = 196,
  number  = {Supplement 1},
  pages   = {123--147},
  note    = {Special issue on the Versatile Test Reactor (VTR), \url{https://doi.org/10.1080/00295639.2022.2043539}}
}

% MOOSE
% https://www.softxjournal.com/article/S2352-7110(22)00120-0/fulltext
@Article{Lindsay_2022,
  author  = {Alexander D. Lindsay and Derek R. Gaston and Cody J. Permann and Jason M. Miller and David Andr{\v{s}} and Andrew E. Slaughter and Fande Kong and Joshua Hansel and Robert W. Carlsen and Casey Icenhour and Logan Harbour and Guillaume L. Giudicelli and Roy H. Stogner and Peter German and Jacob Badger and Sudipta Biswas and Leora Chapuis and Christopher Green and Jason Hales and Tianchen Hu and Wen Jiang and Yeon Sang Jung and Christopher Matthews and Yinbin Miao and April Novak and John W. Peterson and Zachary M. Prince and Andrea Rovinelli and Sebastian Schunert and Daniel Schwen and Benjamin W. Spencer and Swetha Veeraraghavan and Antonio Recuero and Dewen Yushu and Yaqi Wang and Andy Wilkins and Christopher Wong},
  title   = {{2.0--MOOSE: Enabling massively parallel multiphysics simulation}},
  journal = {SoftwareX},
  month   = dec,
  year    = 2022,
  volume  = 20,
  pages   = {101202 (3 pages)},
  note    = {\url{https://doi.org/10.1016/j.softx.2022.101202}}
}

% MOOSE/NEAMS
% https://www.osti.gov/biblio/1891258
@TechReport{Stauff_2022b,
  author      = {N. Stauff and A. Abdelhameed and Y. Cao and Kristina and Y. Miao and K. Mo and D. Nunez},
  title       = {Multiphysics analysis of load following and safety transients for microreactors},
  institution = {Argonne National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2022,
  number      = {ANL/NEAMS-22/1},
  note        = {\url{https://doi.org/10.2172/1891258}}
}

% MOOSE/NEAMS Workbench
% https://www.osti.gov/biblio/1890289
@TechReport{Delchini_2022,
  author      = {Marc-Olivier G. Delchini and Robert A. Lefebvre},
  title       = {{Documentation on how to run the NEAMS Workbench GUI on Sawtooth}},
  institution = {Oak Ridge National Laboratory},
  day         = 1,
  month       = sep,
  year        = 2022,
  number      = {ORNL/TM-2022/2659},
  note        = {\url{https://doi.org/10.2172/1890289}}
}

% MOOSE
% "To solve the numerical system ...  (RHEA), a FE application based on ... (MOOSE) was used"
@Article{Espejo_2022,
  author  = {Jose M. Bastias Espejo and Gabriel C. Rau and Philipp Blum},
  title   = {{Groundwater responses to earth tides: Evaluation of analytical solutions using numerical simulation}},
  journal = {Journal of Geophysical Research: Solid Earth},
  month   = oct,
  year    = 2022,
  volume  = 127,
  number  = 10,
  pages   = {e2022JB024771 (22 pages)},
  note    = {\url{https://doi.org/10.1029/2022JB024771}}
}

% libMesh
% "All simulations have been performed using the libMesh, a C++ FEM open-source software library..."
@Article{Grave_2022b,
  author  = {Mal{\'{u}} Grave and Alex Viguerie and Gabriel F. Barros and Alessandro Reali and Roberto F. S. Andrade and Alvaro L. G. A. Coutinho},
  title   = {Modeling nonlocal behavior in epidemics via a reaction-diffusion system incorporating population movement along a network},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = nov,
  year    = 2022,
  volume  = {401, Part A},
  pages   = {115541 (18 pages)},
  note    = {Special Issue on Computational Modeling and Simulation of Infectious Diseases, \url{https://doi.org/10.1016/j.cma.2022.115541}}
}

% MOOSE/SAM
@phdthesis{Johnson_thesis,
  author = {Ishak Johnson},
  school = {University of California, Berkeley},
  title  = {{Quantifying radiative heat transfer scaling distortions: System code development and a scaling methodology for fluoride-salt-cooled high-temperature reactors}},
  note   = {\url{https://escholarship.org/uc/item/6p78d8d1}},
  month  = may,
  year   = 2022
}

% MOOSE/SAM
% https://www.osti.gov/biblio/1889653
@TechReport{Hu_2022b,
  author      = {R. Hu and J. Fang and D. Nunez and M. Tano and G. Giudicelli and R. Salko},
  title       = {{Development of integrated thermal fluids modeling capability for MSRs}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = aug,
  year        = 2022,
  number      = {ANL/NSE-22/56},
  note        = {\url{https://doi.org/10.2172/1889653}}
}

% MOOSE/BISON
% SSRN preprint has same title as TechReport but additional authors
% https://www.osti.gov/biblio/1888915
@TechReport{Capps_2022b,
  author      = {Nathan Capps and Mackenzie Ridley and Yong Yan and Samuel Bell and Kenneth Kane},
  title       = {{Bison validation to in-situ cladding burst test and high burnup LOCA experiments}},
  institution = {Oak Ridge National Laboratory},
  day         = 1,
  month       = sep,
  year        = 2022,
  number      = {ORNL/SPR-2022/2532},
  note        = {\url{https://doi.org/10.2172/1888915}, SSRN preprint: \url{https://doi.org/10.2139/ssrn.4351017}}
}

% MOOSE
% https://www.osti.gov/biblio/1888753
@TechReport{HPark_2022,
  author      = {Hansol Park and Yiqi Yu and Emily Shemon and April Novak},
  title       = {{Progress on demonstration of a MOOSE-based coupled capability for hot channel factors in fast reactors}},
  institution = {Argonne National Laboratory},
  day         = 15,
  month       = sep,
  year        = 2022,
  number      = {ANL/NSE-22/45},
  note        = {\url{https://doi.org/10.2172/1888753}}
}

% MOOSE
@TechReport{Shemon_2022,
  author      = {E. Shemon and Y. Miao and S. Kumar and K. Mo and Y. S. Jung and A. Oaks and Guillaume Giudicelli and Logan Harbour and Roy Stogner},
  title       = {{MOOSE reactor module meshing enhancements to support reactor analysis}},
  institution = {Argonne National Laboratory},
  day         = 15,
  month       = sep,
  year        = 2022,
  number      = {ANL/NSE-22/65},
  note        = {\url{https://doi.org/10.2172/1887516}}
}

% MOOSE
% "The finite element method based numerical simulations were performed in ... (MOOSE)"
@InProceedings{Kunwar_2022b,
  author    = {Anil Kunwar and Haoran Ma and Johan Hektor},
  title     = {{Crystal structure informed mesoscale deformation model for HCP Cu$_6$Sn$_5$ intermetallic compound}},
  booktitle = {{Proceedings of the 23rd International Conference on Electronic Packaging Technology (ICEPT)}},
  address   = {Dalian, China},
  pages     = {xx (4 pages)},
  month     = aug # {~10--13,},
  year      = 2022,
  note      = {\url{https://doi.org/10.1109/ICEPT56209.2022.9873310}}
}

% MOOSE
% "The phase-field model ... was implemented in ... (MOOSE)"
@Article{Rizza_2022b,
  author  = {Giovanni Rizza and Manuela Galati and Luca Iuliano},
  title   = {{Simulating the sintering of powder particles during the preheating step of Electron Beam Melting process: review, challenges and a proposal}},
  journal = {Procedia CIRP},
  month   = sep,
  year    = 2022,
  volume  = 112,
  pages   = {388--393},
  note    = {\url{https://doi.org/10.1016/j.procir.2022.09.025}}
}

% MOOSE
% "The constitutive model has been implemented as a user-defined material model ... and interfaced with the open-source finite element code MOOSE"
@Article{Basu_2022,
  author  = {Soudip Basu and Anirban Patra and Balila Nagamani Jaya and Sarbari Ganguly and Monojit Dutta and Indradev Samajdar},
  title   = {Study of microstructure-property correlations in dual phase steels for achieving enhanced strength and reduced strain partitioning},
  journal = {Materialia},
  month   = sep,
  year    = 2022,
  volume  = 25,
  pages   = {101522 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.mtla.2022.101522}}
}

% MOOSE/RACCOON
% "The subsequently presented numerical results are obtained using RACCOON ... developed upon MOOSE..."
@Article{Vajari_2022,
  author  = {Sina {Abrari Vajari} and Matthias Neuner and Prajwal Kammardi Arunachala and Andy Ziccarelli and Gregory Deierlein and Christian Linder},
  title   = {A thermodynamically consistent finite strain phase field approach to ductile fracture considering multi-axial stress states},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = oct,
  year    = 2022,
  volume  = 400,
  pages   = {115467 (30 pages)},
  note    = {\url{https://doi.org/10.1016/j.cma.2022.115467}}
}

% MOOSE
% "... weak form and the material models were implemented by means of an implicit MOOSE ... finite element code based application Chamois"
@Article{Neuner_2022,
  author  = {M. Neuner and R. Regueiro and C. Linder},
  title   = {A unified finite strain gradient-enhanced micropolar continuum approach for modeling quasi-brittle failure of cohesive-frictional materials},
  journal = {International Journal of Solids and Structures},
  month   = nov,
  year    = 2022,
  volume  = {254--255},
  pages   = {111841 (24 pages)},
  note    = {\url{https://doi.org/10.1016/j.ijsolstr.2022.111841}}
}

% MOOSE/XFEM
% "Implementation of the XFEM in Grizzly is provided by the MOOSE framework upon which Grizzly is based..."
@Article{Spencer_2022b,
  author  = {Benjamin W. Spencer and William M. Hoffman and Wen Jiang},
  title   = {Weight function procedure for reduced order fracture analysis of arbitrary flaws in cylindrical pressure vessels},
  journal = {International Journal of Pressure Vessels and Piping},
  month   = dec,
  year    = 2022,
  volume  = 200,
  pages   = {104784 (14 pages)},
  note    = {\url{https://doi.org/10.1016/j.ijpvp.2022.104784}}
}

% MOOSE/phase_field
@Article{ShoutongJin_2022,
  author  = {Shoutong Jin and Yongjun Wu and Hui Yang and Yuhui Huang and Zijian Hong},
  title   = {{Protocol for phase-field simulations of lithium dendrite growth with MOOSE framework}},
  journal = {STAR Protocols},
  month   = dec,
  year    = 2022,
  volume  = 3,
  number  = 4,
  pages   = {101713 (12 pages)},
  note    = {\url{https://doi.org/10.1016/j.xpro.2022.101713}}
}

% MOOSE
% "... (MOOSE), ... is adopted in this study to capture the sharp temperature and degree-of-cure gradients in the vicinity of the advancing polymerizing front"
@Article{YuanGao_2022b,
  author  = {Yuan Gao and Luis E. {Rodriguez Koett} and Julie Hemmer and Tianyu Gai and Nil A. Parikh and Nancy R. Sottos and Philippe H. Geubelle},
  title   = {Frontal polymerization of thin layers on a thermally insulating substrate},
  journal = {ACS Applied Polymer Materials},
  month   = jul,
  year    = 2022,
  volume  = 4,
  number  = 7,
  pages   = {4919--4927},
  note    = {\url{https://doi.org/10.1021/acsapm.2c00497}}
}

% MOOSE/FALCON
% "We solve the above governing equations using the FALCON ... code, which is built upon ... MOOSE"
@Article{Jin_2022,
  author  = {Wencheng Jin and Trevor Atkinson and Christine Doughty and Ghanashyam Neupane and Nicolas Spycher and Travis McLing and Patrick Dobson and Robert Smith and Robert Podgorney},
  title   = {Machine-learning-assisted high-temperature reservoir thermal energy storage optimization},
  journal = {Renewable Energy},
  month   = sep,
  year    = 2022,
  volume  = 197,
  pages   = {384--397},
  note    = {\url{https://doi.org/10.1016/j.renene.2022.07.118}}
}

% MOOSE/BISON
% "Bison was used here to simulate the thermal response of the copper rods..."
@Article{Ortega_2022,
  author  = {Luis H. Ortega and Kay L. Yee and Delia Perez-Nunez and Sean M. McDeavitt and Casey Steinman and Richard R. Schultz and Mary Lou Dunzik-Gougar and Benjamin W. Spencer},
  title   = {{Thermal-shock experiments for separate-effects validation of UO$_2$ fuel fracture models}},
  journal = {Journal of Nuclear Materials},
  month   = dec,
  year    = 2022,
  volume  = 572,
  pages   = {154035 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.154035}}
}

% MOOSE/phase_field
% "All simulations were performed using the phase-field module implemented in ... MOOSE"
@Article{Cui_2022,
  author  = {Baozhi Cui and Xubo Liu and Ikenna C. Nlebedim and Jun Cui},
  title   = {{Mechanically robust high magnetic-performance Sm-Co sintered magnets through microstructure engineering}},
  journal = {Journal of Alloys and Compounds},
  month   = dec,
  year    = 2022,
  volume  = 926,
  pages   = {166869 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jallcom.2022.166869}, SSRN preprint: \url{https://doi.org/10.2139/ssrn.4126097}}
}

% libMesh
% "Our implementation makes intensive use of the LIBMESH numerical library ... and utilizes infinite elements ..."
@Article{Marx_2022,
  author  = {Tobias Marx and Sergey I. Bokarev},
  title   = {Computing photoelectron spectra employing unique continuum functions},
  journal = {Physical Review A},
  month   = sep,
  year    = 2022,
  volume  = 106,
  number  = 3,
  pages   = {032806 (7 pages)},
  note    = {\url{https://doi.org/10.1103/PhysRevA.106.032806}}
}

% MOOSE/phase_field
@Article{Aagesen_2022b,
  author  = {Larry K. Aagesen and Andrea Jokisaari and Daniel Schwen and Chao Jiang and Anton Schneider and Yongfeng Zhang and Cheng Sun and Jian Gan},
  title   = {A phase-field model for void and gas bubble superlattice formation in irradiated solids},
  journal = {Computational Materials Science},
  month   = dec,
  year    = 2022,
  volume  = 215,
  pages   = {111772 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2022.111772}}
}

% BISON
% Two fuel performance tools--TRANSURANUS and BISON--were used for the benchmark
@TechReport{Choi_2022,
  author      = {Yong-Joon Choi and Mohammad Abdo and Gabrielle Palamone and Stephen Heagy and Cesare Frepoli and Kingsley Ogujiuba and Nicholas Rollins and Gregory Deplipei and Jason Hou},
  title       = {Development and demonstration of a risk-informed approach to the regulatory required fuel reload safety analysis},
  institution = {Idaho National Laboratory},
  day         = 1,
  month       = aug,
  year        = 2022,
  number      = {INL/RPT-22-68628},
  note        = {\url{https://doi.org/10.2172/1885790}}
}

% MOOSE/SAM
% https://deepblue.lib.umich.edu/handle/2027.42/174257
% https://hdl.handle.net/2027.42/174257
@phdthesis{GYang_thesis,
  author = {Gang Yang},
  school = {University of Michigan},
  title  = {{Development of coupled PROTEUS and SAM code system for multiphysics analysis of advanced reactors}},
  note   = {\url{https://doi.org/10.7302/5988}},
  month  = sep,
  year   = 2022
}

% MOOSE
% "A novel finite element workflow is designed ... based on the multi-app and data transfer capabilities in ... (MOOSE)."
@Article{Yushu_2022,
  author  = {Dewen Yushu and Michael D. McMurtrey and Wen Jiang and Fande Kong},
  title   = {{Directed energy deposition process modeling: A geometry-free thermo-mechanical model with adaptive subdomain construction}},
  journal = {The International Journal of Advanced Manufacturing Technology},
  month   = sep,
  year    = 2022,
  volume  = 122,
  number  = 2,
  pages   = {849--868},
  note    = {\url{https://doi.org/10.1007/s00170-022-09887-6}}
}

% MOOSE
% "This methodology is developed in ... (MOOSE Framework)"
% https://www.proquest.com/openview/8059cde5f92a8aef65bedaa65a26ac47/1.pdf
@phdthesis{Monpara_thesis,
  author = {Geeta Monpara},
  school = {University of Wyoming},
  title  = {{Microscale single-crystal plasticity and cohesive zone models of unirradiated and irradiated specimens of BCC-Fe}},
  note   = {\url{https://tinyurl.com/yc65ctev}},
  month  = aug,
  year   = 2022
}

% libMesh
% "The numerical experiments in Sections 5.2 to 5.4 were performed using the C++ library libMesh"
% MATHICSE Tech. Report \url{https://infoscience.epfl.ch/record/277896}
% https://www.researchgate.net/publication/341817042_Stabilized_explicit_multirate_methods_for_stiff_differential_equations
@Article{Abdulle_2022c,
  author  = {Assyr Abdulle and Marcus J. Grote and Giacomo Rosilho de Souza},
  title   = {Stabilized explicit multirate methods for stiff differential equations},
  journal = {Mathematics of Computation},
  month   = jul,
  year    = 2022,
  volume  = 91,
  pages   = {2681--2714},
  note    = {\url{https://doi.org/10.1090/mcom/3753}, ArXiv e-print: \url{https://arxiv.org/abs/2006.00744}, MATHICSE Tech. Report 277896 \url{https://doi.org/10.5075/epfl-MATHICSE-277896}}
}

% MOOSE/GRIFFIN
@Article{Jing_2022,
  author  = {Tian Jing and Sebastian Schunert and Vincent M. Labour{\'{e}} and Mark D. DeHart and Ching-Sheng Lin and Javier Ortensi},
  title   = {{Multiphysics simulation of the NASA SIRIUS-CAL fuel experiment in the Transient Test Reactor using Griffin}},
  journal = {Energies},
  month   = aug,
  year    = 2022,
  volume  = 15,
  number  = 17,
  pages   = {6181 (28 pages)},
  note    = {\url{https://doi.org/10.3390/en15176181}}
}

% MOOSE/SAM/GRIFFIN
% https://www.osti.gov/biblio/1880993-validation-neams-tools-using-msre-data
@TechReport{Fei_2022b,
  author      = {T. Fei and S. Shahbazi and J. Fang and D. Shaver},
  title       = {{Validation of NEAMS tools using MSRE data}},
  institution = {Argonne National Laboratory},
  day         = 19,
  month       = aug,
  year        = 2022,
  number      = {ANL/NSE-22/48},
  note        = {\url{https://doi.org/10.2172/1880993}}
}

% MOOSE
% "The phase field simulations are carried out using ... MOOSE"
@Article{WYan_2022,
  author  = {Weishi Yan and Joseph Melville and Vishal Yadav and Kristien Everett and Lin Yang and Michael S. Kesler and Amanda R. Krause and Michael R. Tonks and Joel B. Harley},
  title   = {A novel physics-regularized interpretable machine learning model for grain growth},
  journal = {Materials \& Design},
  month   = oct,
  year    = 2022,
  volume  = 222,
  pages   = {111032 (31 pages)},
  note    = {\url{https://doi.org/10.1016/j.matdes.2022.111032}, ArXiv e-print: \url{https://arxiv.org/abs/2203.03735}}
}

% libMesh
% "The reference simulations of the model are carried out using the libMesh finite element library..."
% ResearchGate Preprint: https://www.researchgate.net/publication/358919495_Data-driven_simulation_of_Fisher-Kolmogorov_tumor_growth_models_using_Dynamic_Mode_Decomposition
@Article{Viguerie_2022b,
  author  = {Alex Viguerie and Mal{\'{u}} Grave and Gabriel F. Barros and Guillermo Lorenzo and Alessandro Reali and Alvaro L. G. A. Coutinho},
  title   = {{Data-driven simulation of Fisher--Kolmogorov tumor growth models using dynamic mode decomposition}},
  journal = {Journal of Biomechanical Engineering},
  month   = dec,
  year    = 2022,
  volume  = 144,
  number  = 12,
  pages   = {121001 (14 pages)},
  note    = {\url{https://doi.org/10.1115/1.4054925}, Paper No.\ BIO-22-1059, ArXiv e-print: \url{https://arxiv.org/abs/2202.13860}}
}

% MOOSE
% "Source codes of MOOSE-based application NIsoS and related utilities are ... bitbucket.org/mfm_tuda/nisos.git"
% https://www.researchgate.net/publication/357249319_A_Diffuse-Interface_Model_of_Anisotropic_Interface_Thermal_Conductivity_and_its_Application_in_Thermal_Homogenization_of_Composites
% https://www.researchgate.net/publication/357449648_Supplementary_Information_of_A_diffuse-interface_model_of_anisotropic_interface_thermal_conductivity_and_its_application_in_thermal_homogenization_of_composites
@Article{Yang_2022b,
  author  = {Yangyiwei Yang and Mozhdeh Fathidoost and Timileyin David Oyedeji and Prasanth Bondi and Xiandong Zhou and Herbert Egger and Bai-Xiang Xu},
  title   = {A diffuse-interface model of anisotropic interface thermal conductivity and its application in thermal homogenization of composites},
  journal = {Scripta Materialia},
  month   = apr,
  year    = 2022,
  volume  = 212,
  pages   = {114537 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.scriptamat.2022.114537}, SSRN preprint: \url{https://doi.org/10.2139/ssrn.3990705}}
}

% BISON
@Article{Paaren_2022,
  author  = {Kyle M. Paaren and Ammon Black and Nancy Lybeck and Kun Mo and Benjamin W. Spencer and Pavel Medvedev and Douglas Porter},
  title   = {{BISON fuel performance modeling optimization for experiment X447 and X447A using axial swelling and cladding strain measurements}},
  journal = {Nuclear Engineering and Design},
  month   = aug,
  year    = 2022,
  volume  = 394,
  pages   = {111812 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2022.111812}}
}

% MOOSE
% "In this effort, we used the ... finite-element-method based MOOSE framework ... to solve the governing equations."
% https://www.researchgate.net/publication/362634983_Influence_of_mechanical_deformation_and_mineral_dissolutionprecipitation_on_reservoir_thermal_energy_storage
@InProceedings{Jin_2022b,
  author    = {Wencheng Jin and Trevor Atkinson and Ghanashyam Neupane and Travis L. McLing and Christine Doughty and Nicolas Spycher and Patrick F. Dobson and Robert Smith},
  title     = {Influence of mechanical deformation and mineral dissolution/precipitation on reservoir thermal energy storage},
  booktitle = {{Proceedings of the 56th US Rock Mechanics/Geomechanics Symposium}},
  address   = {Santa Fe, New Mexico},
  pages     = {ARMA-2022-2068 (14 pages)},
  month     = jun # {~26--29,},
  year      = 2022,
  note      = {\url{https://doi.org/10.56952/ARMA-2022-2068}}
}

% MOOSE
% "The implementation of the elastic BVP for the coherency stresses is carried out in MOOSE ..."
@Article{Pachaury_2022,
  author  = {Yash Pachaury and Tomohisa Kumagai and Anter El-Azab},
  title   = {Microplasticity in inhomogeneous alloys},
  journal = {IOP Conference Series: Materials Science and Engineering},
  month   = jul,
  year    = 2022,
  volume  = 1249,
  number  = 1,
  pages   = {012038 (7 pages)},
  note    = {\url{https://doi.org/10.1088/1757-899x/1249/1/012038}}
}

% MOOSE
% "We solve the HF and LF model equations using the Navier-Stokes module ... in ... (MOOSE)"
@Article{Dhulipala_2022e,
  author  = {Somayajulu L. N. Dhulipala and Michael D. Shields and Benjamin W. Spencer and Chandrakanth Bolisetti and Andrew E. Slaughter and Vincent M. Labour{\'{e}} and Promit Chakroborty},
  title   = {Active learning with multifidelity modeling for efficient rare event simulation},
  journal = {Journal of Computational Physics},
  month   = nov,
  year    = 2022,
  volume  = 468,
  pages   = {111506 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jcp.2022.111506}, ArXiv e-print: \url{https://arxiv.org/abs/2106.13790}}
}

% MOOSE
% https://www.osti.gov/biblio/1879091-continued-verification-moose-structural-mechanics-tools-modeling-core-bowing-phenomena-fast-reactors
@TechReport{Wozniak_2022,
  author      = {Nicholas Wozniak and Emily Shemon},
  title       = {{Continued verification of MOOSE structural mechanics tools for modeling core bowing phenomena in fast reactors}},
  institution = {Argonne National Laboratory},
  day         = 31,
  month       = jul,
  year        = 2022,
  number      = {ANL/NSE-22/38},
  note        = {\url{https://doi.org/10.2172/1879091}}
}

% BISON
% "... fuel performance pre-test predictions ... were performed with KP-BISON"
% https://www.ans.org/meetings/am2022/session/view-1187/#paper_3340
% https://www.osti.gov/servlets/purl/1878692
% https://www.osti.gov/biblio/1878692-triso-fuel-performance-pre-test-predictions-hfir-minifuel-high-power-irradiation
@InProceedings{Collin_2022,
  author    = {Blaise Collin and Russell Gardner and Micah J. Hackett and Ryan Latta and Ryan C. Gallagher and Tyler J. Gerczak and Annabelle Le Coq and Kory Linton},
  title     = {{TRISO fuel performance pre-test predictions of HFIR MiniFuel high power irradiation}},
  booktitle = {{ANS Annual Meeting}},
  address   = {Anaheim, California},
  pages     = {3340 (4 pages)},
  month     = jun # {~12--16,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/yma97cxp}}
}

% MOOSE/RELAP-7
% This is a poster but it was given a Tech. Report number
@TechReport{Freyman_2022,
  author      = {Thomas Paul Freyman and Lise Cecile Madeleine Charlot},
  title       = {{Modeling of the High Temperature Test Facility PG-26 transient using RELAP-7}},
  institution = {Idaho National Laboratory},
  day         = 11,
  month       = aug,
  year        = 2022,
  number      = {INL/EXP-22-68476},
  note        = {\url{https://www.osti.gov/biblio/1879465}}
}

% MOOSE/Nyx/Xolotl
% https://www.osti.gov/biblio/1845228-calibration-diffusivity-predictions-centipede-using-approximate-bayesian-computation-applications-nyx-engineering-scale-xolotl-marmot-meso-scale-simulations
@TechReport{Pieterjan_2022,
  author      = {Robbe Pieterjan and Tiernan Casey and Christopher Matthews and Michael William Donald Cooper and Sophie Blondel and Dong-Uk Kim and Md Ali Muntaha and Michael Tonks and Brian Wirth and Anders David Ragnar Andersson and Habib Najm and Giovanni Pastore},
  title       = {{Calibration of the diffusivity predictions of Centipede using approximate Bayesian computation and applications in Nyx (engineering scale) and Xolotl-MARMOT (meso-scale) simulations}},
  institution = {Los Alamos National Laboratory},
  day         = 10,
  month       = feb,
  year        = 2022,
  number      = {LA-UR-21-29753},
  note        = {\url{https://doi.org/10.2172/1845228}}
}

% MOOSE/AURORA
% https://conferences.iaea.org/event/247/contributions/19944/attachments/10656/15445/iaea_open_source_21.docx
@InProceedings{Shriwise_2022,
  author    = {P. Shriwise and P. K. Romano and A. Novak and R. Rahaman},
  title     = {{Updates on open-source multiphysics endeavors with OpenMC}},
  booktitle = {{Technical Meeting on the Development and Application of Open-Source Modelling and Simulation Tools for Nuclear Reactors}},
  address   = {Polimi, Italy},
  month     = jun # {~20--24,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/mrfvahtj}}
}

% MOOSE
% https://conferences.iaea.org/event/285/contributions/22686/attachments/11980/17944/Abstract_IAEA_v5.docx
@InProceedings{Singh_2022,
  author    = {Gyanender Singh and Alexander Lindsay and Pierre-Cl{\'{e}}ment A. Simon and Paul Humrickhouse},
  title     = {{MOOSE Framework for research and development of fission and fusion reactors}},
  booktitle = {{Technical Meeting on Synergies in Technology Development between Nuclear Fission and Fusion for Energy Production}},
  address   = {Vienna, Austria},
  month     = jun # {~6--10,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/msf356mx}}
}

% MOOSE/AURORA
% "... to model the effects of the deposited neutron heat upon the reactor ... we employ the finite element framework MOOSE"
% https://conferences.iaea.org/event/247/contributions/20711/attachments/11097/16270/IAEA_AURORA_Extended_Abstract.docx
@InProceedings{Brooks_2022,
  author    = {H. M. Brooks and A. Davis},
  title     = {{Scalable tightly-coupled multi-physics for fusion reactors with AURORA}},
  booktitle = {{Technical Meeting on the Development and Application of Open-Source Modelling and Simulation Tools for Nuclear Reactors}},
  address   = {Polimi, Italy},
  month     = jun # {~20--24,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/2mx7k2zx}}
}

% MOOSE/Cardinal
@Article{Novak_2022c,
  author  = {A. J. Novak and D. Andr{\v{s}} and P. Shriwise and J. Fang and H. Yuan and D. Shaver and E. Merzari and P. K. Romano and R. C. Martineau},
  title   = {{Coupled Monte Carlo and thermal-fluid modeling of high temperature gas reactors using Cardinal}},
  journal = {Annals of Nuclear Energy},
  month   = nov,
  year    = 2022,
  volume  = 177,
  pages   = {109310 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2022.109310}}
}

% MOOSE
% "The overall objective of this research project is to develop a high-fidelity model of the Pulsed Plasma Rocket (PPR) reactor ... using ... MOOSE-based Rattlesnake..."
@mastersthesis{JWilliams_thesis,
  author = {Jessica Randi Williams},
  school = {North Carolina State University},
  title  = {{Steady state and transient neutronics model of the Pulsed Plasma Rocket reactor}},
  note   = {\url{https://www.lib.ncsu.edu/resolver/1840.20/39799}},
  month  = may,
  year   = 2022
}

% MOOSE/phase_field
% "The authors utilized the phase-field fracture model [10] implemented in the MOOSE framework..."
% Confirmed that the authors do you MOOSE on Research Gate
@Article{McClenny_2022,
  author  = {Levi D. McClenny and Moiz I. Butt and M. Gomaa Abdoelatef and Michal J. Pate and Kay L. Yee and R. Harikrishnan and Delia Perez-Nunez and W. Jiang and Luis H. Ortega and Sean M. McDeavitt and Karim Ahmed},
  title   = {{Experimentally validated multiphysics modeling of fracture induced by thermal shocks in sintered UO$_2$ pellets}},
  journal = {Journal of Nuclear Materials},
  month   = jul,
  year    = 2022,
  volume  = 565,
  pages   = {153719 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153719}, ArXiv e-print: \url{https://arxiv.org/abs/2112.06645}}
}


% They describe a libmesh example solving incompressible Navier-Stokes equations.
@Article{HZhang_2022,
  author  = {Hong Zhang and Emil M. Constantinescu and Barry F. Smith},
  title   = {{PETSc TSAdjoint: A discrete adjoint ODE solver for first-order and second-order sensitivity analysis}},
  journal = {SIAM Journal on Scientific Computing},
  year    = 2022,
  volume  = 44,
  number  = 1,
  pages   = {C1--C24},
  note    = {\url{https://doi.org/10.1137/21M140078X}, ArXiv e-print: \url{https://arxiv.org/abs/1912.07696}}
}

% MOOSE/DireWolf
% https://www.osti.gov/biblio/1875121-modeling-analysis-micro-reactor-using-direwolf-code-suite
@TechReport{Roskoff_2022,
  author      = {Nathan Roskoff and Vefa Kucukboyaci and Alex Levinsky and Vincent M. Labour{\'{e}} and Jackson R. Harter and Adam X. Zabriskie and Lise Cecile Madeleine Charlot},
  title       = {{Modeling and analysis of a micro-reactor using the DireWolf code suite}},
  institution = {Idaho National Laboratory},
  day         = may,
  month       = 20,
  year        = 2022,
  number      = {INL/CON-22-65910},
  note        = {\url{https://tinyurl.com/45s3em63}}
}

% libMesh
% "In comparison with a second-order accurate subdivision FEM implemented in libMesh..."
% https://web.njit.edu/~muratov/spheroid.pdf
@Article{Miller_2022,
  author  = {Pearson W. Miller and Daniel Fortunato and Cyrill Muratov and Leslie Greengard and Stanislav Shvartsman},
  title   = {Forced and spontaneous symmetry breaking in cell polarization},
  journal = {Nature Computational Science},
  month   = aug,
  year    = 2022,
  volume  = 2,
  number  = 8,
  pages   = {504--511},
  note    = {\url{https://doi.org/10.1038/s43588-022-00295-0}}
}

% MOOSE/GOLEM
% "For this the numerical simulator MOOSE framework ... combined with the reservoir simulation app GOLEM ... were chosen."
% https://www.researchgate.net/publication/362016439_The_hydraulic_effect_of_fault_zones_in_relation_to_deep_hydro-geothermal_energy_exploration_in_the_Upper_Jurassic_aquifer_of_Southern_Germany
@phdthesis{Konrad_2022,
  author = {Florian Konrad},
  school = {Technische Universit{\"{a}}t M{\"{u}}nchen},
  title  = {{The hydraulic effect of fault zones in relation to deep hydro-geothermal energy exploration in the Upper Jurassic aquifer of Southern Germany}},
  note   = {\url{https://tinyurl.com/5a8zsn2w}},
  month  = jul,
  year   = 2022
}

% libMesh
% "The last experiment has been performed with the help of the C++ library libMesh"
% Note: very similar title to Abdulle_2020b, but this is a different paper.
% MATHICSE Tech. Report \url{https://infoscience.epfl.ch/record/281675}
% https://www.researchgate.net/publication/344972164_Explicit_stabilized_multirate_method_for_stiff_stochastic_differential_equations
@Article{Abdulle_2022b,
  author  = {Assyr Abdulle and Giacomo Rosilho de Souza},
  title   = {Explicit stabilized multirate method for stiff stochastic differential equations},
  journal = {SIAM Journal on Scientific Computing},
  month   = jul,
  year    = 2022,
  volume  = 44,
  number  = 4,
  pages   = {A1859--A1883},
  note    = {\url{https://doi.org/10.1137/21M1439018}, ArXiv e-print: \url{https://arxiv.org/abs/2010.15193}}
}

% BISON
% "... a BISON-RELAP model of a fuel rodlet was analyzed with two separate analysis."
% https://ir.library.oregonstate.edu/concern/graduate_thesis_or_dissertations/gh93h675r
@phdthesis{Duenas_2022,
  author = {Alexander M. Due{\~{n}}as},
  school = {Oregon State University},
  title  = {Dynamical system scaling of fuel performance during reactivity insertion accidents},
  note   = {\url{https://tinyurl.com/mrxjy9us}},
  month  = jun,
  year   = 2022
}

% MOOSE
% " (MOOSE) ... and its corresponding finite element library are utilized in this work."
@Article{Niu_2022,
  author  = {Yuhang Niu and Yanan He and Bowen Qiu and Fengrui Xiang and Chaoqun Deng and Yuanming Li and Jing Zhang and Yingwei Wu and Wenxi Tian and G. H. Su and Suizheng Qiu},
  title   = {{An effective method for modeling 1D two-phase two-fluid six-equation model with automatic differentiation approach}},
  journal = {Progress in Nuclear Energy},
  month   = sep,
  year    = 2022,
  volume  = 151,
  pages   = {104325 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.pnucene.2022.104325}}
}

% MOOSE
% " (MOOSE) ... has been recently integrated in the Open OnDemand dashboard and also appeared among the survey results as a "most used" feature."
@InProceedings{Rothwell_2022,
  author    = {Bradlee Rothwell and Matthew Sgambati and Garrick Evans and Brandon Biggs and Matthew Anderson},
  title     = {Quantifying the impact of advanced web platforms on high performance computing usage},
  booktitle = {{Proceedings of Practice and Experience in Advanced Research Computing (PEARC '22)}},
  address   = {Boston, Massachusetts},
  pages     = {20 (8 pages)},
  publisher = {Association for Computing Machinery},
  month     = jul,
  year      = 2022,
  note      = {\url{https://doi.org/10.1145/3491418.3530758}}
}

% MOOSE
% "Herein, an acoustic FSI formulation is implemented in ... (MOOSE)"
% https://www.researchgate.net/publication/360076033_Development_verification_and_validation_of_comprehensive_acoustic_fluid-structure_interaction_capabilities_in_an_open-source_computational_platform
@Article{Dhulipala_2022d,
  author  = {Som Dhulipala and Chandrakanth Bolisetti and Lynn Munday and William Hoffman and Ching-Ching Yu and Faizan Ul Haq Mir and Fande Kong and Alexander D. Lindsay and Andrew Whittaker},
  title   = {Development, verification, and validation of comprehensive acoustic fluid-structure interaction capabilities in an open-source computational platform},
  journal = {Earthquake Engineering \& Structural Dynamics},
  month   = aug,
  year    = 2022,
  volume  = 51,
  number  = 10,
  pages   = {2188--2219},
  note    = {\url{https://doi.org/10.1002/eqe.3659}, ResearchGate Preprint: \url{https://tinyurl.com/yckp6n4m}}
}

% MOOSE
% Confirmed on ResearchGate that the authors use MOOSE
@Article{Rizza_2022,
  author  = {Giovanni Rizza and Manuela Galati and Luca Iuliano},
  title   = {{Sintering during Electron Beam--Powder Bed Fusion (EB-PBF) of Ti6Al4V Alloy}},
  journal = {Defect and Diffusion Forum},
  month   = jul,
  year    = 2022,
  volume  = 417,
  pages   = {73--78},
  note    = {\url{https://doi.org/10.4028/p-12866k}}
}

% MOOSE
% Confirmed that the authors use MOOSE on Research Gate
@Article{Pai_2022,
  author  = {Namit Pai and Aditya Prakash and Indradev Samajdar and Anirban Patra},
  title   = {{Study of grain boundary orientation gradients through combined experiments and strain gradient crystal plasticity modeling}},
  journal = {International Journal of Plasticity},
  month   = sep,
  year    = 2022,
  volume  = 156,
  pages   = {103360 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijplas.2022.103360}}
}

% Bison
% Confirmed on ResearchGate that BISON was used to design the experiments.
@Article{Spencer_2022,
  author  = {Benjamin W. Spencer and Nicolas E. Woolstenhulme and Jason L. Schulthess and Austin D. Fleming and Leigh A. Astle and D. {Devin Imholte} and Connie M. Hill and James R. Parry and Daniel B. Chapman and Charles P. Folsom and David Ban and Matthew R. Ramirez and Connor T. Woolum and Ju-Yuan Yeh and Mary Lou Dunzik-Gougar and Colby B. Jensen and Daniel M. Wachs},
  title   = {{Dry In-Pile Fracture Test (DRIFT) for separate-effects validation of ceramic fuel fracture models}},
  journal = {Journal of Nuclear Materials},
  month   = sep,
  year    = 2022,
  volume  = 568,
  pages   = {153816 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153816}}
}

% MOOSE
% "All PFM simulations are performed using the open-source-code framework MOOSE..."
@Article{Xuan_2022,
  author  = {Changji Xuan and Wangzhong Mu},
  title   = {New insights of heterogeneous nucleation and anisotropic growth of acicular ferrite on non-metallic inclusion},
  journal = {Materials \& Design},
  month   = sep,
  year    = 2022,
  volume  = 221,
  pages   = {110892 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.matdes.2022.110892}}
}

% MOOSE
% "The nonlinear physical simulations are solved within the Finite Element framework MOOSE..."
@Article{Guo_2022,
  author  = {Theron Guo and Francesco A. B. Silva and Ond{\v{r}}ej Roko{\v{s}} and Karen Veroy},
  title   = {{Learning constitutive models from microstructural simulations via a non-intrusive reduced basis method: Extension to geometrical parameterizations}},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = nov,
  year    = 2022,
  volume  = {401, Part B},
  pages   = {115636 (23 pages)},
  note    = {\url{https://doi.org}, ArXiv e-print: \url{https://arxiv.org/abs/2206.13627}}
}

% libMesh
% "The methods are implemented in libMesh..."
% ResearchGate Preprint: https://www.researchgate.net/publication/358814241_Comparing_the_convected_level-set_and_the_Allen-Cahn_phase-field_methods_in_AMRC_simulations_of_two-phase_flows
@Article{Grave_2022,
  author  = {Mal{\'{u}} Grave and Alvaro L. G. A. Coutinho},
  title   = {{Comparing the convected level-set and the Allen--Cahn phase-field methods in AMR/C simulations of two-phase flows}},
  journal = {Computers \& Fluids},
  month   = aug,
  year    = 2022,
  volume  = 244,
  pages   = {105569 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.compfluid.2022.105569}, ArXiv e-print: \url{https://arxiv.org/abs/2202.11476}}
}

% MOOSE/Griffin
% https://www.osti.gov/servlets/purl/1872982
% https://www.osti.gov/biblio/1872982-using-griffin-transmutation-solver-calculate-radiation-damage
@TechReport{Gale_2022,
  author      = {Micah D. Gale and Sebastian Schunert and Olin W. Calvin},
  title       = {{Using Griffin's transmutation solver to calculate radiation damage}},
  institution = {Idaho National Laboratory},
  day         = 18,
  month       = may,
  year        = 2022,
  number      = {INL/CON-21-64415},
  note        = {\url{https://tinyurl.com/yzce8sne}}
}

% MOOSE/phase_field
% "The model Equations (3)-(10) are solved in MOOSE..."
@Article{Luchinsky_2022,
  author  = {Dmitry G. Luchinsky and Vasyl Hafiychuck and Kevin R. Wheeler and Sudipta Biswas and Christopher E. Roberts and Ian M. Hanson and Tracie J. Prater and Peter V. E. McClintock},
  title   = {{Multi-scale modelling of the bound metal deposition manufacturing of Ti6Al4V}},
  journal = {Thermo},
  month   = jun,
  year    = 2022,
  volume  = 2,
  number  = 3,
  pages   = {116--148},
  note    = {\url{https://doi.org/10.3390/thermo2030011}}
}

% MOOSE/BISON
@phdthesis{Gamble_thesis,
  author = {Kyle Allan Lawrence Gamble},
  school = {University of South Carolina},
  title  = {Mechanistic multiphysics modeling of cladding rupture in nuclear fuel rods during loss-of-coolant accident conditions},
  note   = {\url{https://www.proquest.com/openview/d44c6f41271557ac52d4b95d85a6ba52/1}},
  month  = jun,
  year   = 2022
}

% MOOSE
% "... the corresponding program is developed through the open-source finite element framework Moose."
@Article{LinyongZhou_2022,
  author  = {Linyong Zhou and Peizhen Huang},
  title   = {Phase field simulation of the instability and splitting processes of elliptical inclusions in interconnects due to anisotropic interface diffusion under electric and stress fields},
  journal = {AIP Advances},
  month   = jun,
  year    = 2022,
  volume  = 12,
  number  = 6,
  pages   = {065310 (18 pages)},
  note    = {\url{https://doi.org/10.1063/5.0088890}}
}

% MOOSE
@Article{Recuero_2022,
  author  = {Antonio Recuero and Alexander Lindsay and Dewen Yushu and John W. Peterson and Benjamin Spencer},
  title   = {A mortar thermomechanical contact computational framework for nuclear fuel performance simulation},
  journal = {Nuclear Engineering and Design},
  month   = aug,
  year    = 2022,
  volume  = 394,
  pages   = {111808 (12 pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2022.111808}}
}

% MOOSE
% "It relies on the image reader capability of the finite element framework MOOSE"
@Article{Lesueur_2022,
  author  = {Martin Lesueur and Hadrien Rattez and Oriol Colom{\'{e}}s},
  title   = {{$\mu$CT scans permeability computation with an unfitted boundary method to improve coarsening accuracy}},
  journal = {Computers \& Geosciences},
  month   = sep,
  year    = 2022,
  volume  = 166,
  pages   = {105118 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.cageo.2022.105118}, EarthArXiv e-print: \url{https://doi.org/10.31223/osf.io/ernyp}}
}

% MOOSE
% "All simulations presented here are conducted using MOOSE..."
@Article{Coutinho_2022,
  author  = {Yuri Amorim Coutinho and Anil Kunwar and Nele Moelans},
  title   = {{Phase-field approach to simulate BCC-B2 phase separation in the Al$_{\textrm{n}}$CrFe$_2$Ni$_2$ medium-entropy alloy}},
  journal = {Journal of Materials Science},
  month   = jun,
  year    = 2022,
  volume  = 57,
  number  = 23,
  pages   = {10600--10612},
  note    = {\url{https://doi.org/10.1007/s10853-022-07058-2}}
}

% MOOSE/BISON
% "Demonstrated BISON's ability to appropriately model coated cladding tubes using a multilayered approach"
@Article{Sweet_2022,
  author  = {Ryan Sweet and Peter Mouche and Samuel Bell and Kenneth Kane and Nathan Capps},
  title   = {{Chromium-coated cladding analysis under simulated LOCA burst conditions}},
  journal = {Annals of Nuclear Energy},
  month   = oct,
  year    = 2022,
  volume  = 176,
  pages   = {109275 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2022.109275}}
}

% MOOSE/MOSKITO
% Work related to Esmaeilpour_2022
@Article{Esmaeilpour_2022b,
  author  = {Morteza Esmaeilpour and Maziar Gholami Korzani and Thomas Kohl},
  title   = {Impact of thermosiphoning on long-term behavior of closed-loop deep geothermal systems for sustainable energy exploitation},
  journal = {Renewable Energy},
  month   = jul,
  year    = 2022,
  volume  = 194,
  pages   = {1247--1260},
  note    = {\url{https://doi.org/10.1016/j.renene.2022.06.014}}
}

% MOOSE
% Confirmed that they use MOOSE on Research Gate
@Article{Basaula_2022,
  author  = {Dharma Basaula and Mohamad Daeipour and Lukasz Kuna and John Mangeri and Boris Feygelson and Serge Nakhmanson},
  title   = {Towards modeling thermoelectric properties of anisotropic polycrystalline materials},
  journal = {Acta Materialia},
  month   = apr,
  year    = 2022,
  volume  = 228,
  pages   = {117743 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.actamat.2022.117743}}
}

% MOOSE/REDBACK
% "We use the open-source finite element simulator REDBACK ... based on MOOSE"
@Article{RSmith_2022,
  author  = {Ruaridh Y. Smith and Martin Lesueur and Ulrich Kelka and Thomas Poulet and Daniel Koehn},
  title   = {Using fractured outcrops to calculate permeability tensors: implications for geothermal fluid flow and the influence of seismic-scale faults},
  journal = {Geological Magazine},
  month   = sep,
  year    = 2022,
  volume  = 166,
  pages   = {105118 (17 pages)},
  note    = {\url{https://doi.org/10.1017/S0016756822000309}}
}

% SCRBE
% "To this end, a component-based reduced-order model for the UAV has been developed using
% the Akselos Integra modeling software, in collaboration with Akselos Inc"
@Article{Kapteyn_2022,
  author  = {M. G. Kapteyn and D. J. Knezevic and D. B. P. Huynh and M. Tran and K. E. Willcox},
  title   = {Data-driven physics-based digital twins via a library of component-based reduced-order models},
  journal = {Inernational Journal for Numerical Methods in Engineering},
  month   = jul,
  year    = 2022,
  volume  = 123,
  number  = 13,
  pages   = {2986--3003},
  note    = {\url{https://doi.org/10.1002/nme.6423}}
}

% MOOSE
% "To solve the non-linear CH ... (PDEs), we used ... (MOOSE)"
@Article{Farizhandi_2022b,
  author  = {Amir {Abbas Kazemzadeh Farizhandi} and Mahmood Mamivand},
  title   = {Processing time, temperature, and initial chemical composition prediction from materials microstructure by deep network for multiple inputs and fused data},
  journal = {Materials \& Design},
  month   = jul,
  year    = 2022,
  volume  = 219,
  pages   = {110799 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.matdes.2022.110799}}
}

% libMesh
% "For our FEM numerical implementation, we use libMesh ... for finite element book-keeping"
@Article{Tabrizi_2022,
  author  = {A. {Molavi Tabrizi} and A. Mesgarnejad and M. Bazzi and S. Luther and J. Christoph and A. Karma},
  title   = {Spatiotemporal organization of electromechanical phase singularities during high-frequency cardiac arrhythmias},
  journal = {Physical Review X},
  month   = jun,
  year    = 2022,
  volume  = 12,
  number  = 2,
  pages   = {021052 (23 pages)},
  note    = {\url{https://doi.org/10.1103/PhysRevX.12.021052}, ArXiv e-print: \url{https://arxiv.org/abs/2107.09223}}
}

% MOOSE
% "The computational algorithm outlined above is implemented in ... MOOSE"
% https://hammer.purdue.edu/articles/thesis/Continuum_Dislocation_Dynamics_Modeling_of_Mesoscale_Crystal_Plasticity_at_Finite_Deformation/19678884
@phdthesis{Starkey_thesis,
  author = {Kyle Starkey},
  school = {Purdue University},
  title  = {Continuum dislocation dynamics modeling of mesoscale crystal plasticity at finite deformation},
  note   = {\url{https://doi.org/10.25394/PGS.19678884.v1}},
  month  = apr,
  year   = 2022
}

% MOOSE/Griffin
% https://www.researchgate.net/publication/360779741_Assessment_of_Griffin_Cross-Section_Interpolation_Capability_on_TRISO-_Fueled_Heat-Pipe_Micro-Reactor
% The DOI link given on ResearchGate was not yet active
% https://doi.org/10.13182/PHYSOR22-37536
@InProceedings{Ni_2022,
  author    = {Kan Ni and Yan Cao and Nicolas Stauff and Jason Hou},
  title     = {{Assessment of Griffin cross-section interpolation capability on TRISO-fueled heat-pipe micro-reactor}},
  booktitle = {{Physics of Reactors (PHYSOR)}},
  address   = {Pittsburgh, Pennsylvania},
  publisher = {American Nuclear Society},
  month     = may # {~15--20,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/2p97ur4h}}
}

% MOOSE/MASTODON
% "The material model is written in the C++ language in the open-source ... (FE) software MASTODON."
@Article{Neupane_2022,
  author  = {Hrishiv Neupane and Luis Ibarra},
  title   = {Development of a spring model to predict the behavior of fuel rods in a spacer grid assembly},
  journal = {Nuclear Engineering and Design},
  month   = aug,
  year    = 2022,
  volume  = 394,
  pages   = {111826 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2022.111826}}
}

% MOOSE/phase_field
@Article{Chatterjee_2022,
  author  = {Sourav Chatterjee and Daniel Schwen and Nele Moelans},
  title   = {An efficient and quantitative phase-field model for elastically heterogeneous two-phase solids based on a partial rank-one homogenization scheme},
  journal = {International Journal of Solids and Structures},
  month   = aug,
  year    = 2022,
  volume  = 250,
  pages   = {111709 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijsolstr.2022.111709}, ArXiv e-print: \url{https://arxiv.org/abs/2301.01746}}
}

% MOOSE/BISON
% "The analyses indicate work is still needed to improve the hydride solvus models in the BISON code ..."
@Article{Seo_2022b,
  author  = {Seok Bin Seo and Edward M. Duchnowski and Arthur T. Motta and Bruce F. Kammenzind and Nicholas R. Brown},
  title   = {{Sensitivity analysis for characterizing the impact of HNGD model on the prediction of hydrogen redistribution in Zircaloy cladding using BISON code}},
  journal = {Nuclear Engineering and Design},
  month   = jul,
  year    = 2022,
  volume  = 393,
  pages   = {111813 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2022.111813}}
}

% MOOSE Pronghorn Griffin
% Confirmed that the authors use MOOSE on Research Gate
@Article{Stewart_2022,
  author  = {Ryan Stewart and Paolo Balestra and David Reger and Elia Merzari},
  title   = {Generation of localized reactor point kinetics parameters using coupled neutronic and thermal fluid models for pebble-bed reactor transient analysis},
  journal = {Annals of Nuclear Energy},
  month   = sep,
  year    = 2022,
  volume  = 174,
  pages   = {109143 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2022.109143}}
}

% MOOSE/SAM
% https://www.osti.gov/biblio/1867879-sam-code-development-transient-safety-analyses-fluoride-salt-cooled-high-temperature-reactors
@TechReport{OGrady_2022,
  author      = {Daniel O'Grady and Travis Mui and Ling Zou and Guojun Hu and Rui Hu},
  title       = {{SAM code development for transient safety analyses of fluoride-salt-cooled high-temperature reactors}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = apr,
  year        = 2022,
  number      = {ANL/NSE-22/23},
  note        = {\url{https://doi.org/10.2172/1867879}}
}

% MOOSE
% Confirmed that the authors use MOOSE on Research Gate
@Article{Wen_2022,
  author  = {Peng Wen and Michael R. Tonks and Simon R. Phillpot and Douglas E. Spearot},
  title   = {{The effect of stress on the migration of He gas bubbles under a thermal gradient in Fe by phase-field modeling}},
  journal = {Computational Materials Science},
  month   = jun,
  year    = 2022,
  volume  = 209,
  pages   = {111392 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2022.111392}}
}

% MOOSE/MARMOT
% Confirmed that the authors use MOOSE on Research Gate
@Article{CSmith_2022,
  author  = {Charlyne A. Smith and Sudipta Biswas and Brandon D. Miller and Boopathy Kombaiah and David Fraser and Dennis D. Keiser and Assel Aitkaliyeva},
  title   = {{High burnup structure formation in U-Mo fuels}},
  journal = {Journal of Nuclear Materials},
  month   = may,
  year    = 2022,
  volume  = 563,
  pages   = {153617 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153617}}
}

% MOOSE
% Confirmed that the authors do use MOOSE on Research Gate
@Article{Valencia_2022,
  author  = {Felipe J. Valencia and Robinson Ortega and Rafael I. Gonz{\'{a}}lez and Eduardo M. Bringa and Miguel Kiwi and Carlos J. Ruestes},
  title   = {{Nanoindentation of nanoporous tungsten: A molecular dynamics approach}},
  journal = {Computational Materials Science},
  month   = jun,
  year    = 2022,
  volume  = 209,
  pages   = {111336 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2022.111336}}
}

% MOOSE
% "In this example, the Fe-Cr microstructural evolution using the PF simulation
% in the MOOSE framework [72] is used to demonstrate the approach"
% Confirmed on Research Gate that the authors used MOOSE.
% Original title: Multiscale stochastic reduced-order model for uncertainty propagation using Fokker--Planck equation with microstructure evolution applications
% https://www.osti.gov/servlets/purl/1834331
@Article{Tran_2022,
  author  = {Anh Tran and Timothy Wildey and Jing Sun and Dehao Liu and Yan Wang},
  title   = {A stochastic reduced-order model for statistical microstructure descriptors evolution},
  journal = {Journal of Computing and Information Science in Engineering},
  month   = dec,
  volume  = 22,
  number  = 6,
  year    = 2022,
  pages   = {061005 (17 pages)},
  note    = {\url{https://doi.org/10.1115/1.4054237}, ArXiv e-print: \url{https://arxiv.org/abs/2004.06487}, Tech. Report SAND2020-3724J: \url{https://www.osti.gov/biblio/1834331}}
}

% MOOSE/phase_field
% Confirmed that the authors used MOOSE for coupled phase-field and solid mechanics simulations.
@Article{Nizinkovskyi_2022,
  author  = {Rostyslav Nizinkovskyi and Thorsten Halle and Manja Kr{\"{u}}ger},
  title   = {{Influence of elasticity on the morphology of fcc-Cu precipitates in Fe-Cu alloys. A phase-field study}},
  journal = {Journal of Nuclear Materials},
  month   = aug,
  year    = 2022,
  volume  = 566,
  pages   = {153764 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153764}}
}

% MOOSE
% Confirmed on Research Gate that the authors do use MOOSE in this paper.
@Article{Asai_2022,
  author  = {Pranay Asai and Robert Podgorney and John McLennan and Milind Deo and Joseph Moore},
  title   = {{Analytical model for fluid flow distribution in an Enhanced Geothermal Systems (EGS)}},
  journal = {Renewable Energy},
  month   = jun,
  year    = 2022,
  volume  = 193,
  pages   = {821--831},
  note    = {\url{https://doi.org/10.1016/j.renene.2022.05.079}}
}

% MOOSE
% Confirmed on Research Gate that the authors do use MOOSE in this paper.
@Article{XZhou_2022b,
  author  = {Xiandong Zhou and Christoph Reimuth and Bai-Xiang Xu},
  title   = {{Phase-field simulation of misfit dislocations in two-phase electrode particles: Driving force calculation and stability analysis}},
  journal = {International Journal of Solids and Structures},
  month   = aug,
  year    = 2022,
  volume  = 249,
  pages   = {111688 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijsolstr.2022.111688}}
}

% MOOSE
% Confirmed by contacting the authors on ResearchGate.
@Article{Kumar_2022,
  author  = {Anil Kumar and Roger Hu and Stuart D. C. Walsh},
  title   = {Development of reduced order hydro-mechanical models of fractured media},
  journal = {Rock Mechanics and Rock Engineering},
  month   = jan,
  year    = 2022,
  volume  = 55,
  number  = 1,
  pages   = {235--248},
  note    = {\url{https://doi.org/10.1007/s00603-021-02668-9}}
}

% MOOSE
% "... to analyze ... the proposed ATFs, a finite element-based fuel performance code called BEEs, developed based on MOOSE ... has been extended"
@Article{Deng_2022b,
  author  = {Chaoqun Deng and Yanan He and Fengrui Xiang and Yingwei Wu and Jing Zhang and Wenxi Tian and Guanghui Su and Suizheng Qiu},
  title   = {{Finite element based fuel performance investigation of U$_3$Si$_2$--FeCrAl design under normal and RIA conditions}},
  journal = {Progress in Nuclear Energy},
  month   = jul,
  year    = 2022,
  volume  = 149,
  pages   = {104265 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.pnucene.2022.104265}}
}

% MOOSE
% "In this study, leveraging ... (MOOSE), a ... (FEM) based fuel performance code, ... developed for annular fuel"
@Article{He_2022,
  author  = {Yanan He and Yuhang Niu and Fengrui Xiang and Yingwei Wu and Jing Zhang and Guanghui Su and Wenxi Tian and Suizheng Qiu},
  title   = {Preliminary development of a multi-physics coupled fuel performance code for annular fuel analysis under normal conditions},
  journal = {Nuclear Engineering and Design},
  month   = jul,
  year    = 2022,
  volume  = 393,
  pages   = {111810 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2022.111810}}
}

% MOOSE
% "... a MOOSE-based application was developed using the Tensor Mechanics module ..."
% https://www.researchgate.net/publication/360641533_A_fourth-order_phase-field_fracture_model_Formulation_and_numerical_solution_using_a_continuousdiscontinuous_Galerkin_method
@Article{Svolos_2022,
  author  = {Lampros Svolos and Hashem M. Mourad and Gianmarco Manzini and Krishna Garikipati},
  title   = {{A fourth-order phase-field fracture model: Formulation and numerical solution using a continuous/discontinuous Galerkin method}},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = aug,
  year    = 2022,
  volume  = 165,
  pages   = {104910 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2022.104910}}
}

% MOOSE/Cardinal
% https://www.researchgate.net/publication/360681454_Coupled_Monte_Carlo_and_Thermal-Hydraulics_Modeling_of_a_Prismatic_Gas_Reactor_Fuel_Assembly_Using_Cardinal
@InProceedings{Novak_2022b,
  author    = {A. J. Novak and D. Andr{\v{s}} and P. Shriwise and D. Shaver and P. K. Romano and E. Merzari and P. Keutelian},
  title     = {{Coupled Monte Carlo and thermal-hydraulics modeling of a prismatic gas reactor fuel assembly using Cardinal}},
  booktitle = {{Physics of Reactors (PHYSOR)}},
  address   = {Pittsburgh, Pennsylvania},
  publisher = {American Nuclear Society},
  month     = may # {~15--20,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/27647w56}}
}

% MOOSE
% "For the case study..., we consider a coupled thermo-hydro-mechanical forward problem as implemented in the software GOLEM, which is based on ... MOOSE"
@Article{Degen_2022c,
  author  = {Denise Degen and Mauro Cacace and Florian Wellmann},
  title   = {{3D multi-physics uncertainty quantification using physics-based machine learning}},
  journal = {Scientific Reports},
  month   = oct,
  year    = 2022,
  volume  = 12,
  number  = 1,
  pages   = {17491 (10 pages)},
  note    = {\url{https://doi.org/10.1038/s41598-022-21739-7}, Research Square preprint: \url{https://doi.org/10.21203/rs.3.rs-1630493/v1}}
}

% MOOSE phase_field
@Article{Jiang_2022b,
  author  = {Wen Jiang and Tianchen Hu and Larry K. Aagesen and Sudipta Biswas and Kyle A. Gamble},
  title   = {{A phase-field model of quasi-brittle fracture for pressurized cracks: Application to UO$_2$ high-burnup microstructure fragmentation}},
  journal = {Theoretical and Applied Fracture Mechanics},
  month   = jun,
  year    = 2022,
  volume  = 119,
  pages   = {103348 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.tafmec.2022.103348}}
}

% MOOSE/SAM
% "The fluid dynamics within the ARC system are modeled using the one-dimensional fluid dynamics code SAM..."
@Article{Keckler_2022,
  author  = {Chris Keckler and Massimiliano Fratoni and Ehud Greenspan},
  title   = {{On steady state noncondensable gas buildup in Autonomous Reactivity Control (ARC) systems}},
  journal = {Progress in Nuclear Energy},
  month   = jun,
  year    = 2022,
  volume  = 148,
  pages   = {104235 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.pnucene.2022.104235}}
}

% MOOSE
@InCollection{DeHart_2022,
  author    = {Mark D. DeHart and Sebastian Schunert and Vincent M. Labour{\'{e}}},
  title     = {Nuclear thermal propulsion},
  year      = 2022,
  publisher = {IntechOpen},
  address   = {Rijeka},
  editor    = {Chad L. Pope},
  booktitle = {Nuclear Reactors},
  chapter   = 7,
  note      = {\url{https://doi.org/10.5772/intechopen.103895}}
}

% MOOSE/phase_field
% The authors discuss several computational packages (including MOOSE) that can be used for microstructure evolution modeling and give detailed examples.
% npj Computational Materials is a nature.com journal
@Article{Mianroodi_2022,
  author  = {Jaber Rezaei Mianroodi and Pratheek Shanthraj and Chuanlai Liu and Samad Vakili and Sharan Roongta and Nima Hamidi Siboni and Nathan Perchikov and Yang Bai and Bob Svendsen and Franz Roters and Dierk Raabe and Martin Diehl},
  title   = {Modeling and simulation of microstructure in metallic systems based on multi-physics approaches},
  journal = {npj Computational Materials},
  month   = apr,
  year    = 2022,
  volume  = 8,
  pages   = {93 (15 pages)},
  note    = {\url{https://doi.org/10.1038/s41524-022-00764-0}}
}

% MOOSE
@mastersthesis{Gustafsson_thesis,
  author = {Erik Gustafsson},
  school = {Uppsala University},
  title  = {{Verification of the fluid dynamics modules of the multiphysics simulation framework MOOSE}},
  note   = {\url{http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-472909}},
  month  = feb,
  year   = 2022
}

% MOOSE/SAM
% "As a MOOSE ... application ..., SAM uses a ... (FEM) to obtain the discretized equations"
% https://www.researchgate.net/publication/362426934_SAM-ML_MACHINE_LEARNING_ENHANCED_SYSTEM_ANALYSIS_MODULE_FOR_THERMAL_STRATIFICATION_ANALYSIS
@InProceedings{YLiu_2022b,
  author    = {Yang Liu and Rui Hu and Ling Zou and Guojun Hu and Daniel Nunez},
  title     = {{SAM-ML: Machine learning enhanced system analysis module for thermal stratification analysis}},
  booktitle = {{Proceedings of the 19th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-19)}},
  address   = {Brussels, Belgium},
  pages     = {35631 (15 pages)},
  month     = mar # {~6--11,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/2p92zbwh}}
}

% MOOSE/SAM
% "The discretized "weak form" is solved ... by the MOOSE framework."
% https://www.researchgate.net/publication/362426778_BENCHMARK_SIMULATION_OF_THE_FFTF_LOFWOS_TEST_13_USING_SAM
@InProceedings{YLiu_2022,
  author    = {Yang Liu and Guojun Hu and Rui Hu},
  title     = {{Benchmark simulation of the FFTF LOFWOS Test \#13 using SAM}},
  booktitle = {{Proceedings of the 19th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-19)}},
  address   = {Brussels, Belgium},
  pages     = {35633 (14 pages)},
  month     = mar # {~6--11,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/2p92zbwh}}
}

% MOOSE
% https://www.researchgate.net/profile/Jieun-Lee-81/publication/359774334_PRONGHORN_POROUS_MEDIA_MODEL_VALIDATION_WITH_PRESSURE_DROP_MEASUREMENTS
@InProceedings{JLee_2022,
  author    = {Jieun Lee and Stephen King and Yassin A. Hassan and Thien Nguyen and Paolo Balestra and Sebastian Schunert and Guillaume Giudicelli},
  title     = {Pronghorn porous media model validation with pressure drop measurements},
  booktitle = {{Proceedings of the 19th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-19)}},
  address   = {Brussels, Belgium},
  pages     = {19001 (16 pages)},
  month     = mar # {~6--11,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/3mru55pm}}
}

% MOOSE/BISON
@Article{Toptan_2022,
  author  = {Aysenur Toptan and Nathan Porter and Jason D. Hales and Wen Jiang and Benjamin W. Spencer and Stephen Novascone},
  title   = {{Verification of MOOSE/Bison's heat conduction solver using combined spatiotemporal convergence analysis}},
  journal = {Journal of Verification, Validation and Uncertainty Quantification},
  month   = jun,
  year    = 2022,
  volume  = 7,
  number  = 2,
  pages   = {021006 (18 pages)},
  note    = {\url{https://doi.org/10.1115/1.4054216}}
}

% MOOSE/BISON
@Article{Cheniour_2022,
  author  = {Amani Cheniour and Giovanni Pastore and Jason M. Harp and Christian M. Petrie and Nathan A. Capps},
  title   = {{Application of BISON to UO$_2$ MiniFuel fission gas release analysis}},
  journal = {Journal of Nuclear Materials},
  month   = jul,
  year    = 2022,
  volume  = 565,
  pages   = {153686 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153686}}
}

% MOOSE
% "The (weak form of the) ... relations ... have been implemented in the open source finite element package libMesh/MOOSE..."
@Article{Bai_2022,
  author  = {Yang Bai and Jaber Rezaei Mianroodi and Yan Ma and Alisson Kwiatkowski {da Silva} and Bob Svendsen and Dierk Raabe},
  title   = {Chemo-mechanical phase-field modeling of iron oxide reduction with hydrogen},
  journal = {Acta Materialia},
  month   = jun,
  year    = 2022,
  volume  = 231,
  pages   = {117899 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.actamat.2022.117899}, Journal preprint: \url{https://doi.org/10.2139/ssrn.3984148}, ArXiv e-print: \url{https://arxiv.org/abs/2111.11538}}
}

% MOOSE/Moltres
@Article{Park_2022,
  author  = {Sun Myung Park and Madicken Munk},
  title   = {{Verification of Moltres for multiphysics simulations of fast-spectrum molten salt reactors}},
  journal = {Annals of Nuclear Energy},
  month   = aug,
  year    = 2022,
  volume  = 173,
  pages   = {109111 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2022.109111}}
}

% MOOSE/BISON
% "This work will continue ... using both PARFUME and Bison, to create a high level of confidence in both fuel performance codes"
% https://art.inl.gov/Rotating%20Files/Fuel%20Performance%20Modeling.pdf
@TechReport{Skerjanc_2022,
  author      = {Willaim F. Skerjanc},
  title       = {{Fuel performance modeling plan to support the Advanced Gas Reactor program}},
  institution = {Idaho National Laboratory},
  month       = mar,
  year        = 2022,
  number      = {INL/RPT-22-66390},
  note        = {\url{https://tinyurl.com/mte4txut}}
}

% MOOSE
% "Implementation was performed within the MOOSE finite element framework ..."
% https://www.researchgate.net/publication/359261236_Spatially-Dependent_Material_Uncertainties_in_Anisotropic_Nonlinear_Elasticity_Stochastic_Modeling_Identification_and_Propagation
@Article{PChen_2022,
  author  = {Peiyi Chen and Johann Guilleminot},
  title   = {{Spatially-dependent material uncertainties in anisotropic nonlinear elasticity: Stochastic modeling, identification, and propagation}},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = may,
  year    = 2022,
  volume  = 394,
  pages   = {114897 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.cma.2022.114897}, ResearchGate Preprint: \url{https://tinyurl.com/4n5m4pjz}}
}

% MOOSE
% "Finally, a hydrogen dissociation model described in Appendix 2 is implemented in MOOSE ... and applied to the VHTM model"
@TechReport{Stauff_2022,
  author      = {Nicolas Stauff and Yinbin Miao and Sumit Bhattacharya and Yan Cao and Kan Ni and Justin Thomas},
  title       = {Versatile heat transfer module},
  institution = {Argonne National Laboratory},
  day         = 28,
  month       = jan,
  year        = 2022,
  number      = {ANL/NSE-22/3},
  note        = {\url{https://doi.org/10.2172/1844344}}
}

% MOOSE
% "For the numerical implementation of the model, we write our own finite-element code based on ... (MOOSE)"
% ResearchGate Preprint: https://www.researchgate.net/publication/359729801_Phase-field_modeling_of_paramagnetic_austenite-ferromagnetic_martensite_transformation_coupled_with_mechanics_and_micromagnetics
@Article{Ohmer_2022,
  author  = {Dominik Ohmer and Min Yi and Oliver Gutfleisch and Bai-Xiang Xu},
  title   = {Phase-field modeling of paramagnetic austenite-ferromagnetic martensite transformation coupled with mechanics and micromagnetics},
  journal = {International Journal of Solids and Structures},
  month   = mar,
  year    = 2022,
  volume  = 238,
  pages   = {111365 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijsolstr.2021.111365}, ArXiv e-print: \url{https://arxiv.org/abs/2203.13738}}
}

% libMesh
% "In this study, the geometries are discretized into a finite element mesh composed by
% quadratic tetrahedral elements, generated by Cubit (ver 14.1)[60] and optimized with libMesh."
@Article{YYang_2022,
  author  = {Yu Yang and Viviana Palacio-Betancur and Xin Wang and Juan J. de Pablo and Nicholas L. Abbott},
  title   = {Strongly chiral liquid crystals in nanoemulsions},
  journal = {Small},
  month   = mar,
  year    = 2022,
  volume  = 18,
  number  = 10,
  pages   = {2105835 (xx pages)},
  note    = {\url{https://doi.org/10.1002/smll.202105835}}
}

% MOOSE
% "The partial differential Eq. (11) and  (14) are solved using finite element method (FEM) in ... (MOOSE) Framework"
@Article{Kunwar_2022,
  author  = {Anil Kunwar and Ensieh Yousefi and Xiaojing Zuo and Youqing Sun and David Seveno and Muxing Guo and Nele Moelans},
  title   = {{Multi-phase field simulation of Al$_3$Ni$_2$ intermetallic growth at liquid Al/solid Ni interface using MD computed interfacial energies}},
  journal = {International Journal of Mechanical Sciences},
  month   = feb,
  year    = 2022,
  volume  = 215,
  pages   = {106930 (9 pages)},
  note    = {\url{https://doi.org/10.1016/j.ijmecsci.2021.106930}}
}

% MOOSE
% "The finite element method-based software library MOOSE framework was used for the implementation"
@Article{Vaidya_2022,
  author  = {Nikhil Vaidya and Marco Baragona and Valentina Lavezzo and Ralph Maessen and Karen Veroy},
  title   = {{Tuning the Pennes perfusion rate to model large vessel cooling effects in hepatic radiofrequency ablation}},
  journal = {Journal of Biomedical Engineering},
  month   = aug,
  year    = 2022,
  volume  = 144,
  number  = 8,
  pages   = {084506 (10 pages)},
  note    = {\url{https://doi.org//10.1115/1.4053909}, bioR$\chi$iv e-print: \url{https://doi.org/10.1101/2021.10.19.464935}}
}

% MOOSE/BISON
% "This study presented several statistical methods recently implemented in MOOSE
% ... for failure analysis of nuclear fuels, and applied these methods to TRISO fuel analysis."
% https://www.researchgate.net/publication/356457727_Accelerated_Statistical_Failure_Analysis_of_Multifidelity_TRISO_Fuel_Models
@Article{Dhulipala_2022c,
  author  = {Somayajulu L. N. Dhulipala and Wen Jiang and Benjamin W. Spencer and Jason D. Hales and Michael D. Shields and Andrew E. Slaughter and Zachary M. Prince and Vincent M. Labour{\'{e}} and Chandrakanth Bolisetti and Promit Chakraborty},
  title   = {{Accelerated statistical failure analysis of multifidelity TRISO fuel models}},
  journal = {Journal of Nuclear Materials},
  month   = may,
  year    = 2022,
  volume  = 563,
  pages   = {153604 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153604}, ResearchGate Preprint: \url{https://tinyurl.com/fmryx76}}
}

% MOOSE
% "The numerical solution to (47) has been implemented in ... MOOSE"
% https://www.researchgate.net/publication/357171296_A_generalized_3D_elastic_model_for_nanoscale_self-assembled_oxide-metal_thin_films_with_pillar-in-matrix_configurations
@Article{Starkey_2022,
  author  = {Kyle Starkey and Ahmad Ahmad and Juanjuan Lu and Haiyan Wang and Anter El-Azab},
  title   = {{A generalized 3D elastic model for nanoscale, self-assembled oxide-metal thin films with pillar-in-matrix configurations}},
  journal = {Acta Materialia},
  month   = apr,
  year    = 2022,
  volume  = 228,
  pages   = {117779 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.actamat.2022.117779}, ArXiv e-print: \url{https://arxiv.org/abs/2112.09281}}
}

% MOOSE/BISON
@Article{SKLee_2022,
  author  = {Soon K. Lee and Ben E. Garrison and Nathan A. Capps and Giovanni Pastore and Caleb P. Massey and Kory D. Linton and Nicholas R. Brown},
  title   = {{BISON validation of FeCrAl cladding mechanical failure during simulated reactivity-initiated accident conditions}},
  journal = {Journal of Nuclear Materials},
  month   = jun,
  year    = 2022,
  volume  = 564,
  pages   = {153676 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153676}}
}

% MOOSE
@Article{Martin_2022,
  author  = {Nicolas Martin and Ryan Stewart and Sam Bays},
  title   = {{A multiphysics model of the versatile test reactor based on the MOOSE framework}},
  journal = {Annals of Nuclear Energy},
  month   = jul,
  year    = 2022,
  volume  = 172,
  pages   = {109066 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2022.109066}}
}

% MOOSE/phase_field
@Article{Simon_2022,
  author  = {Pierre-Cl{\'{e}}ment A. Simon and Larry K. Aagesen and Chao Jiang and Wen Jiang and Jia-Hong Ke},
  title   = {{Mechanistic calculation of the effective silver diffusion coefficient in polycrystalline silicon carbide: Application to silver release in AGR-1 TRISO particles}},
  journal = {Journal of Nuclear Materials},
  month   = may,
  year    = 2022,
  volume  = 563,
  pages   = {153669 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153669}}
}

% MOOSE/phase_field
% "The kinetic Eqs. ... and the auxiliary Eqs. ... were solved using the ... (FEM) in ... (MOOSE) ..."
@Article{Zuo_2022,
  author  = {X. J. Zuo and Y. Coutinho and S. Chatterjee and N. Moelans},
  title   = {{Phase field simulations of FCC to BCC phase transformation in (Al)CrFeNi medium entropy alloys}},
  journal = {Materials Theory},
  month   = mar,
  year    = 2022,
  volume  = 6,
  pages   = {12 (24 pages)},
  note    = {\url{https://doi.org/10.1186/s41313-021-00034-4}}
}

% MOOSE
% "The software, which is based on the finite element solver MOOSE, is freely available on GitHub..."
@Article{Degen_2022b,
  author  = {Denise Degen and Karen Veroy and Florian Wellmann},
  title   = {Uncertainty quantification for basin-scale geothermal conduction models},
  journal = {Scientific Reports},
  month   = mar,
  year    = 2022,
  volume  = 12,
  number  = 1,
  pages   = {4246 (10 pages)},
  note    = {\url{https://doi.org/10.1038/s41598-022-08017-2}, Earth and Space Science Open Archive Preprint: \url{https://doi.org/10.1002/essoar.10504276.2}}
}

% MOOSE
% "... simulations were run ... using the MOOSE framework"
% % https://www.researchgate.net/publication/353807294_Deep_Learning_Approach_for_Chemistry_and_Processing_History_Prediction_from_Materials_Microstructure_Application_to_Spinodal
@Article{Farizhandi_2022,
  author  = {Amir Abbas Kazemzadeh Farizhandi and  Omar Betancourt and Mahmood Mamivand},
  title   = {Deep learning approach for chemistry and processing history prediction from materials microstructure},
  journal = {Scientific Reports},
  month   = mar,
  year    = 2022,
  volume  = 12,
  number  = 1,
  pages   = {4552 (15 pages)},
  note    = {\url{https://doi.org/10.1038/s41598-022-08484-7}, SSRN Preprint: \url{https://doi.org/10.2139/ssrn.3901939}}
}

% IBAMR
% "IBAMR uses ... libMesh ... for finite element discretization management"
% ResearchGate Preprint: https://www.researchgate.net/publication/352018157_On_the_Lagrangian-Eulerian_Coupling_in_the_Immersed_Finite_ElementDifference_Method
@Article{Lee_2022,
  author  = {Jae Ho Lee and Boyce E. Griffith},
  title   = {{On the Lagrangian-Eulerian coupling in the immersed finite element/difference method}},
  journal = {Journal of Computational Physics},
  month   = may,
  year    = 2022,
  volume  = 457,
  pages   = {111042 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jcp.2022.111042}, ArXiv e-print: \url{https://arxiv.org/abs/2105.14536}}
}

% MOOSE/SAM
@Article{LZou_2022,
  author  = {Ling Zou and Guojun Hu and Dan O'Grady and Rui Hu},
  title   = {{Explicit modeling of pebble temperature in the porous-media model for pebble-bed reactors}},
  journal = {Progress in Nuclear Energy},
  month   = apr,
  year    = 2022,
  volume  = 146,
  pages   = {104175 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.pnucene.2022.104175}}
}

% MOOSE
% "The equations above are implemented into a finite element framework MOOSE"
@Article{Grilli_2022,
  author  = {Nicol{\`{o}} Grilli and Daijun Hu and Dewen Yushu and Fan Chen and Wentao Yan},
  title   = {Crystal plasticity model of residual stress in additive manufacturing using the element elimination and reactivation method},
  journal = {Computational Mechanics},
  month   = mar,
  year    = 2022,
  volume  = 69,
  number  = 3,
  pages   = {825--845},
  note    = {\url{https://doi.org/10.1007/s00466-021-02116-z}, ArXiv e-print: \url{https://arxiv.org/abs/2105.13257}}
}

% MOOSE/BISON
% "Realistic high-burnup operating conditions were implemented in the BISON fuel performance code..."
@Article{Capps_2022,
  author  = {Nathan Capps and Ryan Sweet},
  title   = {Characterization of modeling and experimental data inconsistencies from burst testing for high-burnup commercial fuel rod applications},
  journal = {Journal of Nuclear Materials},
  month   = may,
  year    = 2022,
  volume  = 563,
  pages   = {153621 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153621}}
}

% MOOSE
% "... the numerical simulation has been performed with the finite element method in the MOOSE framework ..."
@phdthesis{Yao_thesis,
  author = {Yao Liu},
  school = {Technische Universit{\"{a}}t Darmstadt},
  title  = {Interface simulation of all-solid-state lithium-ion thin film battery},
  note   = {\url{https://doi.org/10.26083/tuprints-00020662}},
  month  = feb,
  year   = 2022
}

% MOOSE/phase_field
% "... (MOOSE), which is an open source, parallel finite element framework, was employed to simulate pit morphologies"
@Article{Sahu_2022,
  author  = {Sarita Sahu and Gerald S. Frankel},
  title   = {Phase field modeling of crystallographic corrosion pits},
  journal = {Journal of The Electrochemical Society},
  month   = feb,
  year    = 2022,
  volume  = 169,
  number  = 2,
  pages   = {020557 (11 pages)},
  note    = {\url{https://doi.org/10.1149/1945-7111/ac5349}}
}

% MOOSE/BISON
@Article{Jiang_2022,
  author  = {Wen Jiang and Gyanender Singh and Jason D. Hales and Aysenur Toptan and Benjamin W. Spencer and Stephen R. Novascone and Somayajulu L. N. Dhulipala and Zachary M. Prince},
  title   = {{Efficient high-fidelity TRISO statistical failure analysis using Bison: Applications to AGR-2 irradiation testing}},
  journal = {Journal of Nuclear Materials},
  month   = apr,
  year    = 2022,
  volume  = 562,
  pages   = {153585 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153585}}
}

% MOOSE
% "Numerical implementation of the PF model is carried out by using finite element method in the framework of multiphysics object-oriented simulation (MOOSE) environment"
@phdthesis{SYang_thesis,
  author = {Sha Yang},
  school = {Technische Universit{\"{a}}t Darmstadt},
  title  = {Phase-field modeling for self-healing of mineral-based materials},
  note   = {\url{https://doi.org/10.26083/tuprints-00020439}},
  month  = feb,
  year   = 2022
}

% MOOSE
% "The model equations are implemented into the finite element framework MOOSE..."
@Article{Hu_2022,
  author  = {Daijun Hu and Nicol{\`{o}} Grilli and Lu Wang and Min Yang and Wentao Yang},
  title   = {{Microscale residual stresses in additively manufactured stainless steel: Computational simulation}},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = apr,
  year    = 2022,
  volume  = 161,
  pages   = {104822 (22 pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2022.104822}}
}

% MOOSE
% https://www.researchgate.net/publication/358708764_Monte_Carlo_Variance_Reduction_in_MOOSE_Stochastic_Tools_Module_Accelerating_the_Failure_Analysis_of_Nuclear_Reactor_Technologies
@InProceedings{Dhulipala_2022b,
  author    = {Somayajulu L. N. Dhulipala and Zachary M. Prince and Andrew E. Slaughter and Lynn B. Munday and Wen Jiang and Benjamin W. Spencer and Jason D. Hales},
  title     = {{Monte Carlo variance reduction in MOOSE Stochastic Tools Module: Accelerating the failure analysis of nuclear reactor technologies}},
  booktitle = {{Physics of Reactors (PHYSOR)}},
  address   = {Pittsburgh, Pennsylvania},
  publisher = {American Nuclear Society},
  month     = may # {~15--20,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/ywa57ben}}
}

% MOOSE
% "For all simulations, we use the open-source multiphysics finite-element platform MOOSE..."
@Article{Guevel_2022,
  author  = {Alexandre Gu{\'{e}}vel and Hadrien Rattez and Manolis Veveakis},
  title   = {Morphometric description of strength and degradation in porous media},
  journal = {International Journal of Solids and Structures},
  month   = apr,
  year    = 2022,
  volume  = 241,
  pages   = {111454 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ijsolstr.2022.111454}, ArXiv e-print: \url{https://arxiv.org/abs/2106.12554}}
}

% MOOSE/PorousFlow
% "We used the numerical simulator PorousFlow Module"
@Article{Osman_2022,
  author  = {Ahmed I. Osman and Neha Mehta and Ahmed M. Elgarahy and Mahmoud Hefny and Amer Al-Hinai and Ala'a H. Al-Muhtaseb and David W. Rooney},
  title   = {{Hydrogen production, storage, utilisation and environmental impacts: A review}},
  journal = {Environmental Chemistry Letters},
  month   = feb,
  year    = 2022,
  volume  = 20,
  number  = 1,
  pages   = {153--188},
  note    = {\url{https://doi.org/10.1007/s10311-021-01322-8}}
}

% MOOSE/phase_field
@Article{YipengGao_2022,
  author  = {Yipeng Gao and Andrea M. Jokisaari and Larry Aagesen and Yongfeng Zhang and Miaomiao Jin and Chao Jiang and Sudipta Biswas and Cheng Sun and Jian Gan},
  title   = {{The effect of elastic anisotropy on the symmetry selection of irradiation-induced void superlattices in cubic metals}},
  journal = {Computational Materials Science},
  month   = apr,
  year    = 2022,
  volume  = 206,
  pages   = {111252 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2022.111252}}
}

% MOOSE/MOSKITO
% "A finite element code, called MOSKITO ... has been developed using MOOSE framework ... to simulate non-isothermal transient flow ... in wellbores"
% https://pangea.stanford.edu/ERE/db/GeoConf/papers/SGW/2022/Esmaeilpour.pdf
@InProceedings{Esmaeilpour_2022,
  author    = {Morteza Esmaeilpour and Maziar Gholami Korzani and Thomas Kohl},
  title     = {Evaluation of the advantages of multilateral closed deep geothermal frameworks over conventional geothermal systems},
  booktitle = {{Proceedings of the 47th Workshop on Geothermal Reservoir Engineering}},
  address   = {Stanford, California},
  pages     = {SGP-TR-223 (7 pages)},
  month     = feb # {~7--9,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/2ndt7sb9}}
}

% libMesh
% "We implement the whole model in libMesh..."
@Article{Viguerie_2022,
  author  = {Alex Viguerie and Gabriel F. Barros and Mal{\'{u}} Grave and Alessandro Reali and Alvaro L. G. A. Coutinho},
  title   = {Coupled and uncoupled dynamic mode decomposition in multi-compartmental systems with applications to epidemiological and additive manufacturing problems},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = mar,
  year    = 2022,
  volume  = 391,
  pages   = {114600 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.cma.2022.114600}, ArXiv e-print: \url{https://arxiv.org/abs/2110.06375}}
}

% MOOSE
% "The grain growth simulations are carried out using ... (MOOSE)"
@Article{Jokisaari_2022,
  author  = {Andrea M. Jokisaari and Khadija Mahbuba and Yuhao Wang and Benjamin Beeler},
  title   = {{The impact of anisotropic thermal expansion on the isothermal annealing of polycrystalline $\alpha$-uranium}},
  journal = {Computational Materials Science},
  month   = apr,
  year    = 2022,
  volume  = 205,
  pages   = {111217 (11 pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2022.111217}}
}

% MOOSE
% "Numerical simulation of steady-state, single phase, fully saturated fluid flow through the fractures are performed using the ... (MOOSE) numerical modeling framework"
@Article{Javanmard_2022,
  author  = {Hoda Javanmard and Martin O. Saar and Daniel Vogler},
  title   = {On the applicability of connectivity metrics to rough fractures under normal stress},
  journal = {Advances in Water Resources},
  month   = mar,
  year    = 2022,
  volume  = 161,
  pages   = {104122 (39 pages)},
  note    = {\url{https://doi.org/10.1016/j.advwatres.2022.104122}}
}

% MOOSE
% "The non-potential based cohesive zone model is implemented in a user material kernel in the open-source FE software MOOSE..."
% ResearchGate Preprint:
% https://www.researchgate.net/publication/347398249_Humidity_Influence_on_Mechanics_and_Failure_of_Paper_Materials_Joint_Numerical_and_Experimental_Study_on_Fiber_and_Fiber_Network_Scale
@Article{Lin_2022,
  author  = {Binbin Lin and Julia Auernhammer and Jan-Lukas Sch{\"{a}}fer and Robert Stark and Tobias Meckel and Markus Biesalski and Bai-Xiang Xu},
  title   = {{Humidity influence on mechanics of paper materials: joint numerical and experimental study on fiber and fiber network scale}},
  journal = {Cellulose},
  month   = jan,
  year    = 2022,
  volume  = 29,
  number  = 2,
  pages   = {1129--1148},
  note    = {\url{https://doi.org/10.1007/s10570-021-04355-y}, ArXiv e-print: \url{https://arxiv.org/abs/2012.08597}}
}

% MOOSE/BISON
@Article{Schappel_2022,
  author  = {Daniel Schappel and Giovanni Pastore and Kurt A. Terrani},
  title   = {{Modeling interface debonding in coated fuel particles with BISON}},
  journal = {Nuclear Science and Engineering},
  month   = mar,
  year    = 2022,
  volume  = 196,
  number  = 3,
  pages   = {276--284},
  note    = {\url{https://doi.org/10.1080/00295639.2021.1955590}}
}

% MOOSE
% "The PF model was implemented using the finite element method (FEM) in the framework of ... (MOOSE)"
@Article{SYang_2022,
  author  = {Sha Yang and Yangyiwei Yang and Antonio Caggiano and Neven Ukrainczyk and Eddie Koenders},
  title   = {{A phase-field approach for portlandite carbonation and application to self-healing cementitious materials}},
  journal = {Materials and Structures},
  month   = mar,
  year    = 2022,
  volume  = 55,
  number  = 2,
  pages   = {46 (19 pages)},
  note    = {\url{https://doi.org/10.1617/s11527-022-01887-y}}
}

% BISON
% "The application of this model in fuel performance simulations using the Bison code is also demonstrated."
@Article{XYLiu_2022,
  author  = {X.-Y. Liu and C. Matthews and W. Jiang and M. W. D. Cooper and J. D. Hales and D. A. Andersson},
  title   = {{Atomistic and cluster dynamics modeling of fission gas (Xe) diffusivity in TRISO fuel kernels}},
  journal = {Journal of Nuclear Materials},
  month   = apr,
  year    = 2022,
  volume  = 561,
  pages   = {153539 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2022.153539}}
}

% MOOSE
% "The software, which is based on the finite element solver MOOSE ... is freely available on GitHub"
@Article{Degen_2022,
  author  = {Denise Degen and Karen Veroy and Magdalena Scheck-Wenderoth and Florian Wellmann},
  title   = {Crustal-scale thermal models: revisiting the influence of deep boundary conditions},
  journal = {Environmental Earth Sciences},
  month   = feb,
  year    = 2022,
  volume  = 81,
  number  = 3,
  pages   = {88 (16 pages)},
  note    = {\url{https://doi.org/10.1007/s12665-022-10202-5}}
}

% MOOSE/phase_field
% "Equations (4) and (5) were discretized as a coupled set of second-order equations using the MOOSE framework"
@Article{Aagesen_2022,
  author  = {Larry K. Aagesen and Albert Casagranda and Christopher Matthews and Benjamin W. Beeler and Stephen Novascone},
  title   = {Phase-field simulations of fission gas bubble growth and interconnection in {U-(Pu)-Zr} nuclear fuel},
  journal = {Materials Theory},
  month   = jan,
  year    = 2022,
  volume  = 6,
  pages   = {8 (20 pages)},
  note    = {\url{https://doi.org/10.1186/s41313-021-00041-5}}
}

% MOOSE/MARMOT
% "GB migration and intergranular bubble growth and coalescence are included using the phase field method in the MARMOT code."
@Article{Kim_2022,
  author  = {Dong-Uk Kim and Sophie Blondel and David E. Bernholdt and Philip Roth and Fande Kong and David Andersson and Michael R. Tonks and Brian D. Wirth},
  title   = {Modeling mesoscale fission gas behavior in {UO$_2$} by directly coupling the phase field method to spatially resolved cluster dynamics},
  journal = {Materials Theory},
  month   = jan,
  year    = 2022,
  volume  = 6,
  pages   = {7 (28 pages)},
  note    = {\url{https://doi.org/10.1186/s41313-021-00030-8}}
}

% libMesh
% "The numerical implementation has been done with libmesh..."
@Article{Caboussat_2022,
  author  = {Alexandre Caboussat and Dimitrios Gourzoulidis and Marco Picasso},
  title   = {An anisotropic adaptive method for the numerical approximation of orthogonal maps},
  journal = {Journal of Computational and Applied Mathematics},
  month   = jun,
  year    = 2022,
  volume  = 407,
  pages   = {113997 (21 pages)},
  note    = {\url{https://doi.org/10.1016/j.cam.2021.113997}}
}

% libmesh
% "... data related to Lagrangian operations is handled by the libMesh finite element library."
% ResearchGate preprint: https://www.researchgate.net/publication/350484364_A_Fully_Resolved_Multiphysics_Model_of_Gastric_Peristalsis_and_Bolus_Emptying_in_the_Upper_Gastrointestinal_Tract
@Article{Acharya_2022,
  author  = {Shashank Acharya and Sourav Halder and Wenjun Kou and Peter J. Kahrilas and John E. Pandolfino and Neelesh A. Patankar},
  title   = {{A fully resolved multiphysics model of gastric peristalsis and bolus emptying in the upper gastrointestinal tract}},
  journal = {Computers in Biology and Medicine},
  month   = apr,
  year    = 2022,
  volume  = 143,
  pages   = {104948 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.compbiomed.2021.104948}, ArXiv e-print: \url{https://arxiv.org/abs/2103.14814}}
}

% MOOSE
% "The coupling was made under the MOOSE framework..."
@Article{GYang_2022,
  author  = {Gang Yang and Mustafa K. Jaradat and Won {Sik Yang} and Changho Lee},
  title   = {{Development of coupled PROTEUS-NODAL and SAM code system for multiphysics analysis of molten salt reactors}},
  journal = {Annals of Nuclear Energy},
  month   = apr,
  year    = 2022,
  volume  = 168,
  pages   = {108889 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2021.108889}}
}

% MOOSE
% "... (MOOSE) ... is adopted in this study."
@Article{YuanGao_2022,
  author  = {Yuan Gao and Sarah Li and Jin-Young Kim and Imogen Hoffman and Sagar K. Vyas and John A. Pojman and Philippe H. Geubelle},
  title   = {Anisotropic frontal polymerization in a model resin-copper composite},
  journal = {Chaos: An Interdisciplinary Journal of Nonlinear Science},
  month   = jan,
  year    = 2022,
  volume  = 32,
  number  = 1,
  pages   = {013109 (10 pages)},
  note    = {\url{https://doi.org/10.1063/5.0077552}}
}

% MOOSE
% "The phase field fracture model was implemented using ... (MOOSE)"
@Article{Zhang_2022,
  author  = {Shuaifang Zhang and Wen Jiang and Michael R. Tonks},
  title   = {Assessment of four strain energy decomposition methods for phase field fracture models using quasi-static and dynamic benchmark cases},
  journal = {Materials Theory},
  month   = jan,
  year    = 2022,
  volume  = 6,
  pages   = {6 (24 pages)},
  note    = {\url{https://doi.org/10.1186/s41313-021-00037-1}}
}

% libMesh
% Uses the libmesh git repo as a dataset
@Article{Tu_2022,
  author  = {Huy Tu and Zhe Yu and Tim Menzies},
  title   = {{Better data labelling with EMBLEM (and how that impacts defect prediction)}},
  journal = {IEEE Transactions on Software Engineering},
  month   = jan,
  year    = 2022,
  volume  = 48,
  number  = 1,
  pages   = {278--294},
  note    = {\url{https://doi.org/10.1109/TSE.2020.2986415}, ArXiv e-print: \url{https://arxiv.org/abs/1905.01719}}
}

% MOOSE/BISON
@Article{ONeal_2022,
  author  = {Miles O'Neal and Seok Bin Seo and G. Ivan Maldonado and Nicholas R. Brown},
  title   = {{Assessment of BISON capabilities for component-level prediction of tritium transport in fusion and fission applications}},
  journal = {Fusion Engineering and Design},
  month   = feb,
  year    = 2022,
  volume  = 175,
  pages   = {112996 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.fusengdes.2021.112996}}
}

% MOOSE
% "Here, we leverage the ... phase-field model available as a part of the MOOSE phase-field module..."
@Article{Biswas_2022,
  author  = {Sudipta Biswas and Dehao Liu and Larry K. Aagesen and Wen Jiang},
  title   = {{Solidification and grain formation in alloys: A 2D application of the grand-potential-based phase-field approach}},
  journal = {Modelling and Simulation in Materials Science and Engineering},
  month   = jan,
  year    = 2022,
  volume  = 30,
  number  = 2,
  pages   = {025013 (xx pages)},
  note    = {\url{https://doi.org/10.1088/1361-651X/ac46dc}}
}

% MOOSE
% "We implemented the model in the new Macaw application, created using ... (MOOSE)."
@Article{Sessim_2022,
  author  = {Marina Sessim and Linyuan Shi and Simon R. Phillpot and Michael R. Tonks},
  title   = {Phase-field modeling of carbon fiber oxidation coupled with heat conduction},
  journal = {Computational Materials Science},
  month   = mar,
  year    = 2022,
  volume  = 204,
  pages   = {111156 (17 pages)},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2021.111156}}
}

% MOOSE/BISON
% "Multifidelity modeling of the TRISO particle is performed here using the Bison fuel performance code..."
% https://www.researchgate.net/publication/357635115_Reliability_Estimation_of_an_Advanced_Nuclear_Fuel_using_Coupled_Active_Learning_Multifidelity_Modeling_and_Subset_Simulation
@Article{Dhulipala_2022,
  author  = {Somayajulu L. N. Dhulipala and Michael D. Shields and Promit Chakroborty and Wen Jiang and Benjamin W. Spencer and Jason D. Hales and Vincent M. Labour{\'{e}} and Zachary M. Prince and Chandrakanth Bolisetti and Yifeng Che},
  title   = {Reliability estimation of an advanced nuclear fuel using coupled active learning, multifidelity modeling, and subset simulation},
  journal = {Reliability Engineering \& System Safety},
  month   = oct,
  year    = 2022,
  volume  = 226,
  pages   = {108693 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.ress.2022.108693}, ArXiv e-print: \url{https://arxiv.org/abs/2201.02172}, ResearchGate Preprint: \url{https://tinyurl.com/ykw23tn2}}
}

% libMesh/CHAR
@InProceedings{Amar_2022,
  author    = {Adam J. Amar and Justin M. Cooper and A. Brandon Oliver and Giovanni Salazar and Lucas Agricola},
  title     = {Mesh deformation boundary conditions for three-dimensional ablation solvers},
  booktitle = {{Proceedings of the AIAA SCITECH 2022 Forum}},
  address   = {San Diego, CA \& Virtual},
  pages     = {AIAA 2022-1642 (xx pages)},
  month     = jan # {~3--7,},
  year      = 2022,
  note      = {Session: Thermal Protection Systems/Ablation III, \url{https://doi.org/10.2514/6.2022-1642}}
}

% MOOSE
% "We solve Equations (2)-(4) using the MOOSE framework"
@Article{Ezzat_2022,
  author  = {Mohamed Ezzat and Benjamin M. Adams and Martin O. Saar and Daniel Vogler},
  title   = {Numerical modeling of the effects of pore characteristics on the electric breakdown of rock for plasma pulse geo drilling},
  journal = {Energies},
  month   = jan,
  year    = 2022,
  volume  = 15,
  number  = 1,
  pages   = {250 (16 pages)},
  note    = {\url{https://doi.org/10.3390/en15010250}}
}

% MOOSE
% "This reference model is part of the MOOSE framework..."
@Article{CentenoPerez_2022,
  author  = {J. Centeno-P{\'{e}}rez and A. D. P{\'{e}}rez-Valseca and A. G{\'{o}}mez-Torres and R. C. Lopez-Solis and A. Vazquez-Rodriguez and G. Espinosa-Paredes},
  title   = {Thermomechanical analysis of a lead-cooled fast reactor with a fast-running model},
  journal = {Case Studies in Thermal Engineering},
  month   = feb,
  year    = 2022,
  volume  = 30,
  pages   = {101694 (15 pages)},
  note    = {\url{https://doi.org/10.1016/j.csite.2021.101694}}
}

% MOOSE
% https://www.osti.gov/biblio/1828849-iipg-based-finite-element-framework-moose-modeling-fiber-reinforced-composite-failure-governed-extrinsic-cohesive-laws
@InProceedings{RLiu_2022,
  author    = {Ruijie Liu and Wencheng Jin and Logan H. Harbour and Fande Kong and Cody J. Permann and Derek R. Gaston and Robert K. Podgorney},
  title     = {{An IIPG-based finite element framework in MOOSE for modeling fiber reinforced composite failure governed by extrinsic cohesive laws}},
  booktitle = {{International Conference on Physics of Reactors 2022 (PHYSOR 2022)}},
  address   = {Pittsburgh, Pennsylvania},
  month     = may # {~15--20,},
  year      = 2022,
  note      = {\url{https://tinyurl.com/2p95ey9e}, INL/CON-21-64934}
}

% libMesh
% "The numerical experiments have been performed with the help of the C++ library libMesh"
@Article{Abdulle_2022,
  author  = {Assyr Abdulle and Giacomo Rosilho de Souza},
  title   = {{A local adaptive discontinuous Galerkin method for convection-diffusion-reaction equations}},
  journal = {Journal of Computational Physics},
  month   = feb,
  year    = 2022,
  volume  = 451,
  pages   = {110894 (20 pages)},
  note    = {\url{https://doi.org/10.1016/j.jcp.2021.110894}, ArXiv e-print: \url{https://arxiv.org/abs/2004.07148}, MATHICSE Tech. Report 277218: \url{https://doi.org/10.5075/epfl-MATHICSE-277218}}
}

% MOOSE
% "NECP-CLAMPERL is developed based on ... NECP-X, ... CTF, ... NECP-CALF and ... (MOOSE)."
@Article{XXu_2022,
  author  = {Xiaobei Xu and Zhouyu Liu and Hongchun Wu and Liangzhi Cao},
  title   = {Neutronics/thermal-hydraulics/fuel-performance coupling for light water reactors and its application to accident tolerant fuel},
  journal = {Annals of Nuclear Energy},
  month   = feb,
  year    = 2022,
  volume  = 166,
  pages   = {108809 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2021.108809}}
}

% libMesh
%"In this work, Utopia uses libMesh ... for the finite element discretization"
% https://www.researchgate.net/publication/343689433_Comparison_and_Application_of_non-Conforming_Mesh_Models_for_Flow_in_Fractured_Porous_Media_using_dual_Lagrange_multipliers
@Article{Zulian_2022,
  author  = {Patrick Zulian and Philipp Sch{\"{a}}dle and Liudmila Karagyaur and Maria Nestola},
  title   = {{Comparison and application of non-conforming mesh models for flow in fractured porous media using dual Lagrange multipliers}},
  journal = {Journal of Computational Physics},
  month   = jan,
  year    = 2022,
  volume  = 449,
  pages   = {110773 (21 pages)},
  note    = {\url{https://doi.org/10.1016/j.jcp.2021.110773}, ArXiv e-print: \url{https://arxiv.org/abs/2008.06360}}
}

% MOOSE
% "we employ Bayesian inverse uncertainty quantification (UQ) to quantify the input uncertainties in a MOOSE-based melt pool model for AM."
% https://www.researchgate.net/publication/351537246_Bayesian_Inverse_Uncertainty_Quantification_of_a_MOOSE-based_Melt_Pool_Model_for_Additive_Manufacturing_Using_Experimental_Data
@Article{Xie_2022,
  author  = {Ziyu Xie and Wen Jiang and Congjian Wang and Xu Wu},
  title   = {{Bayesian inverse uncertainty quantification of a MOOSE-based melt pool model for additive manufacturing using experimental data}},
  journal = {Annals of Nuclear Energy},
  month   = jan,
  year    = 2022,
  volume  = 165,
  pages   = {108782 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2021.108782}, ArXiv e-print: \url{https://arxiv.org/abs/2105.05370}}
}

% MOOSE/BISON
% "The BISON code was used to model the diffusional release of silver ...
@Article{Seo_2022,
  author  = {Seok Bin Seo and Nicholas R. Brown and Giovanni Pastore and Brian D. Wirth},
  title   = {{Systematic sensitivity analysis of Ag release from TRISO particle during AGR-1 irradiation test and high temperature annealing safety test}},
  journal = {Journal of Nuclear Materials},
  month   = jan,
  year    = 2022,
  volume  = 558,
  pages   = {153346 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2021.153346}}
}

% MOOSE/BISON
% "Verification tests and improvement assessment compared to BISON."
@Article{Barani_2022,
  author  = {Tommaso Barani and Isabelle Rami{\`{e}}re and Bruno Michel},
  title   = {Analysis of fabrication and crack-induced porosity migration in mixed oxide fuels for sodium fast reactors by the finite element method},
  journal = {Journal of Nuclear Materials},
  month   = jan,
  year    = 2022,
  volume  = 558,
  pages   = {153341 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2021.153341}}
}

% MOOSE/Griffin
% "The methods are implemented in Griffin, the new ... (MOOSE) reactor physics application ..."
@Article{Laboure_2022,
  author  = {Vincent Labour{\'{e}} and Yaqi Wang and Javier Ortensi and Nicolas Martin and Sebastian Schunert},
  title   = {Multischeme equivalence procedure for neutron transport finite element methods},
  journal = {Annals of Nuclear Energy},
  month   = feb,
  year    = 2022,
  volume  = 166,
  pages   = {108712 (18 pages)},
  note    = {\url{https://doi.org/10.1016/j.anucene.2021.108712}}
}

% MOOSE
% "The ... model is derived and numerically implemented via the finite element method within the program "NIsoS" developed by authors based on MOOSE framework"
@Article{Yang_2022,
  author  = {Yangyiwei Yang and Alexander Gro{\ss}mann and Patrick K{\"{u}}hn and Jan M\"{o}lleney and Lorenz Kropholler and Christian Mittelstedt and Bai-Xiang Xu},
  title   = {Validated dimensionless scaling law for melt pool width in laser powder bed fusion},
  journal = {Journal of Materials Processing Technology},
  month   = jan,
  year    = 2022,
  volume  = 299,
  pages   = {117316 (14 pages)},
  note    = {\url{https://doi.org/10.1016/j.jmatprotec.2021.117316}}
}

% MOOSE/BISON
@Article{Hales_2022,
  author  = {Jason D. Hales and Aysenur Toptan and Wen Jiang and Benjamin W. Spencer},
  title   = {{Numerical evaluation of AGR-2 fission product release}},
  journal = {Journal of Nuclear Materials},
  month   = jan,
  year    = 2022,
  volume  = 558,
  pages   = {153325 (xx pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2021.153325}}
}

% MOOSE/BISON
@Article{Pitts_2022,
  author  = {Stephanie A. Pitts and Wen Jiang and Davide Pizzocri and Erin I. Barker and Hussein Zbib},
  title   = {{A continuum dislocation dynamics crystal plasticity approach to irradiated BCC $\alpha$-Iron}},
  journal = {Journal of Engineering Materials and Technology},
  month   = jan,
  year    = 2022,
  volume  = 144,
  number  = 1,
  pages   = {011018 (36 pages)},
  note    = {\url{https://doi.org/10.1115/1.4052256}}
}
